Bolded publications signify peer review while the non bolded signify conference.

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2001

1. + “A 100 mJ Q-switched Nd:YAG(1-x) Laser at 944.1 nm“, B. M. Walsh, N. P. Barnes, R. L. Hutchenson, and R. W. Equall,  Advanced Solid State Laser Conference, Seattle, Washington, Jan., 2001.]

2. + “300 mJ Diode Pumped 1.9 µm Tm:YLF Laser“, M. Petros, J. Yu, U. N. Singh, J. C. Barnes, N. P. Barnes, and B. M. Walsh, SPIE 46th Annual International Symposium on Optical Science and Technology, July 29 – Aug 3, 2001, San Diego, CA.

3. + “A Compact and High-Pulse-Energy Ti:Sapphire Laser at 30 Hz and its Third Harmonic at 289 nm“, S. Chen, L. B. Petway, W. D. Marsh, W. C. Edwards, and J. C. Barnes, Advanced Solid State Laser Conference, Seattle, Washington, Jan., 2001.

4. + “Compositionally Tuned 0.94 micrometer Lasers; A Comparatice Laser Material Study and Demonstration of 100 mJ Q-switched Lasing“, B. M. Walsh, N. P. Barnes, R. L. Hutchenson, and R. W. Equall,  Advanced Solid State Laser Conference, Seattle, Washington, Jan., 2001.

5. + “A High Energy Double Pulsed Ho:Tm:YLF 2 µm Laser“, J. Yu, M. Petros, U. N. Singh, J. C. Barnes, and N. P. Barnes, Advanced Solid State Laser Conference, Seattle, Washington, Jan., 2001.

6. + “High Energy Q-switched 946 nm Diode Pumped Laser“, T. J. Axenson, N. P. Barnes, and D. J. Reichle, Jr., Advanced Solid State Laser Conference, Seattle, Washington, Jan., 2001.

7. “Efficient Solid State Lasers“, N.P. Barnes and B.M. Walsh, inAdvances in Energy Transfer, B. Di Bartolo and X. Chen, editors, (World Scientific, New Jersey, 2001), p. 329-340.

8. + “Diode Pumped, Tunable Q-Switched Tm-glass Fiber Laser”, N.P. Barnes, W.A. Clarkson, D.C. Hanna, P.W. Turner, J. Nilsson, B.M. Walsh, in Advanced Solid State Lasers, vol. 50 of OSA Trends In Optics and Photonics Series (Optical Society of America, Washington, D.C., 2001), p. 88.

9. + “Tm:glass Fiber Laser Pumping Ho:YAG and Ho:LuAG,”, N.P. Barnes, W.A. Clarkson, D.C. Hanna, V. Matera, and B.M. Walsh, Technical digest of the Conference on Lasers and Electro-Optics, Baltimore, Maryland, May 6-11, 2001, p. 530-531.

10. + “Nd Doped Mixed Scandium Garnets For Improved Laser Performance and Compositional Tuning From 937 To 946 nm” A. Braud, F.S. Ermeneux, Y. Sun, R.L. Cone, R.W. Equall, R.L. Hutcheson, C. Maunier, R. Moncorge, N.P. Barnes, H.G. Gallagher, and T.P. Han, Proceedings Of The Advanced Solid State Laser Conference TOPS 50, 265-269 (2001)

11. + “946 nm Diode Pumped Laser Produces 100 mJ” T.J. Axenson, N.P. Barnes, and D.J. Reichle, Proceeding

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2000

1. + “946 nm Diode Pumped Laser Produces 100 mJ“, T. J. Axenson, N. P. Barnes, and D. J. Reichle, Jr., SPIE.

2. + “Advanced Solid State Lasers for Remote Sensing Applications“, U.N. Singh and Jirong Yu, 20th International Laser Radar Conference, Vichy, France, July 10-14, 2000.

3. + “An All Solid-State 2-µm Laser System for Space Coherent Wind Lidar“, Jirong Yu, M. Petros, U. N. Singh, N. P. Barnes, and J. C. Barnes, IEEE 2000 Aerospace Conference, Big Sky, Montana, March 18-25, 2000.

4. + “A Compact Ti:Sapphire Laser with its Third Harmonic Generation (THG) for an Airborne Ozone Differential Absorption Lidar (DIAL)“, S. Chen, M. E. Storm, W. D. Marsh, L. B. Petway, W. C. Edwards, and J. C. Barnes, International Symposium on Remote Sensing of the Atmosphere, Environment and Space, Oct. 9-12, 2000, Sendai, Japan.

5. + “A Comparative Study of Nd-doped Mixed Garnet Laser Materials for Application to 0.94 µm Lasers“,B. M. Walsh, N. P. Barnes, R. W. Equall, R. L. Hutcheson, Advanced Solid State Laser Conference, Davos, Switzerland, Feb. 13-16, 2000.

6. + “Distribution of Sky Radiance in the Visible and Near IR, as Modeled by Modtran, and its Applications to Surface Irradiance Modeling“, R. E. Davis and S. R. Nolf, 23rd Annual Review of Atmospheric Transmission Models, June 21-23, 2000, Hanscom Air Force Base, MA.

7. + “An Efficient Double Pulsed 2-micron Laser for DIAL Applications“, Jirong Yu, M. Petros, U. N. Singh, J. C. Barnes and N. P. Barnes, 20th International Laser Radar Conference, Vichy, France, July 10-14, 2000.

8. + “An Efficient End-Pumped Ho:Tm:YLF Disk Amplifier“, Jirong Yu, M. Petros, N. P. Barnes, and U. N. Singh, Advanced Solid State Laser Conference, Davos, Switzerland, Feb. 13-16, 2000.

9. + “Eight-year Climatology of Nocturnal Temperature and Sodium Density in the Mesopause Region (80 to 105km) over Fort Collins, CO (41°, 105°W)“, C. Y. She, Songsheng Chen, Zhilin Hu, James Sherman, J. D. Vance, Vince Vasoli, M. A. White, Jirong Yu and David A. Krueger, Geophys. Res. Lett., 27, 3289-3292, 2000.

10. + “Frequency Conversion of 946 nm lasing; Efficient Doubling to 473 nm and Tripling to 315 nm“, B.M. Walsh, N.P. Barnes, R.L. Hutcheson, R.W. Equall, Technical digest of the Conference on Lasers and Electro-Optics, San Francisco, California, May 7-12, 2000, p.157.

11.   “Frequency Stabilization of a Diode Laser to Absorption Lines of Water Vapor in the 944 nm Wavelength Region“, G. J. Koch, A. L. Cook, C. M. Fitzgerald, and A. N. Dharamsi, Optical Engineering (submitted).

12. + “A High Energy 2 µm Laser for Multiple Lidar Applications“, J. Yu, U. N. Singh, J. C. Barnes, N. P. Barnes, and M. Petros, International Symposium on Remote Sensing of the Atmosphere, Environment and Space, Oct. 9-12, 2000, Sendai, Japan.

13. + “High Energy Directly Pumped Ho:YLF Laser“, M. Petros, J. Yu, U. N. Singh and N. P. Barnes, Advanced Solid State Laser Conference, Davos, Switzerland, Feb. 13-16, 2000, TOPS Vol. XXXIX, Advanced Solid-State Lasers, Edited by Hagop Injeyan, Ursula Keller, and Christopher Marshall, 178-181, 2000.

14.   “Identification of Terrestrial Reflectance from Remote Sensing“, Rachel Alter-Gartenberg, Scorr R. Nolf, and Richard E. Davis, Contractor Report No. ______. The Computer Sciences Corporation, Hampton Virginia, TBD 2000.

15. + “Lidar water vapor profile measurements from air and space using tunable 940 nm lasers“, S. Ismaiel, E.V. Browell, N.P. Barnes, B.M. Walsh, in SPIE proceedings volume 4035, Aerosense, Orlando, FL, April 24-28, 2000.

16. + “Multifunction Lidar: Measurement of Wind, Water Vapor, and Aerosols, with an Eye-Safe Coherent Lidar“, Grady J. Koch, Richard E. Davis, Colleen M. Fitzgerald, Amin N. Dharamsi, and Mulugeta Petros, International Laser Radar Conference, Vichy, France, July, 2000.

17. + “Multiwavelength Laser for Medical Applications and the Implications of Atmospheric Lensing“, K. E. Murray, B. M. Walsh, R. L. Hutcheson, M. R. Kokta, Advanced Solid State Laser Conference, Davos, Switzerland, Feb. 13-16, 2000.

18. + “Normal Mode and Q-switched 0.946µm Oscillator and Amplifier with Second and Third Harmonic Generation“, N. P. Barnes, B. M. Walsh, D. J. Reichle, and R. L. Hutcheson, Advanced Solid State Laser Conference, Davos, Switzerland, Feb. 13-16, 2000.

19. + “A Novel High Efficient Laser Transmitter Design for a Space-borne Differential Absorption Lidar (DIAL)“, W. C. Edwards, S. Chen, L. B. Petway, W. D. Marsh, M. E. Storm, and J. C. Barnes, International Symposium on Remote Sensing of the Atmosphere, Environment and Space, Oct. 9-12, 2000, Sendai, Japan.

20. + “Performance Characteristics of a Flashlamp pumped 946 nm Nd:YAG laser system; Oscillator-Amplifier system and Frequency Conversion,” B.M. Walsh, N.P. Barnes, R.L. Hutcheson, R.W. Equall, Technical digest of the Conference on Lasers and Electro-Optics, San Francisco, California, May 7-12, 2000, p. 457.

21. + “Precise Wavelength Control of a Single-Frequency Pulsed Ho:Tm:YLF Laser“, G. J. Koch, M. Petros,J. Yu, and U. N. Singh.

22. + “Remote Sensing of Water Vapor Using a 0.94 µm Laser“,  N.P. Barnes, B.M. Walsh, D.J. Reichle, 20th International Laser Radar Conference, Vichy, France (2000).

23. + “Solid State UV Laser Development for the Remote Sensing of Ozone from Space“, R. E. Campbell, W. C. Edwards, J. C. Barnes, M. E. Storm, L. B. Petway, and S. Chen, Photonics North International Conference on the Application of Photonics Technology, Quebec, Canada, June 2000.

24. “Visual Communication with Retinex Coding“, F.O. Huck, C.L. Fales, R.E. Davis, and R. Alter-Gartenberg, Applied Optics, 39 April, 2000.

25. * “The temperature dependence of energy transfer between the Tm 3F4 and Ho 5I7 manifolds of Tm sensitized Ho luminescence in YAG and YLF“, Brian M. Walsh, Norman P. Barnes, Baldassare Di Bartolo, Journal of Luminescence, 90, 39-48 (2000).

26. + “Remote Sensing of Water Vapor Using a 0.94 µm Laser”, N.P. Barnes, B.M. Walsh, D.J. Reichle, 20th International Laser Radar Conference, Vichy, France (2000).

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1999

1. + “2 Micron Solid State Laser Transmitter for Wind Measurements from Space“, Upendra N. Singh, 11th International Meeting on Electro-Optics and Microelectronics, Nov 8-12, 1999, Tel Aviv, Israel.
2.   “All Solid State Ho:Tm:YLF 2 µ Power Oscillator“, J. Yu, Norman P. Barnes, U. N. Singh, and M. Petros, Optics Letters, about Feb., 1999.
3.   “Amplified Spontaneous Emission Application to 0.946 µ Nd:YAG Lasers“, Norman P. Barnes and Brian M. Walsh, IEEE J. Quant. Elect. QE-35 101-109 (1999).
4. + “Coherent Pulsed Lidar Sensing of Wake Vortex Position and Strength, Winds and Turbulence in Airport Terminal Areas“, Philip Brockman, Ben C. Barker Jr., Grady J. Koch, Dung Phu hi Nguyen, and Charles L. Britt Jr. Institute, Tenth Biennial Coherent Laser Radar, Technology and Applications Conference, 28 June – 2 July, 1999, Mount Hood, Oregon.
5. + “A Compact Diode-Pumped 2µm Power Oscillator“,, J. Yu, U. N. Singh, N. P. Barnes, M. Petros, and M. W. Phillips, Advanced Solid State Laser Conference, January 31-February 3, 1999, Boston, Massachusetts.
6.   “Design and development of the SPARCLE coherent lidar transceiver“, M. W. Phillips, D. Schnal, C. P. Hale, D. D’Epagnier, U. N. Singh, J. Yu, and R. Menzies, SPIE Aerosense Conference, Orlando, FL, April 1999 [paper 3707-77].
7. + “Development of Hot Diodes with New Thermal Dissipating Submount“, S. H. Choi, U. N. Singh, A. D. Cutler, Conference on Lasers and Electro-Optics Pacific Rim ’99, Seoul, South Korea, Aug. 30 – Sept. 3, 1999.
8. + “Differential Absorption Measurements of Atmospheric Water Vapor with a Coherent Lidar at 2050.532 nm“, G. J. Koch, R. E. Davis, A. Dharamsi, M. Petros, and J.C. McCarthy, 10th Conference on Coherent Laser Radar, Mt. Hood, OR, June 1999.
9. + “Diode-Pumped Pulsed Laser Transmitter for Coherent Wind Detection from Space“, U. N. Singh, International Laser Sensing Sypmosium, September 6-8, 1999, Fukui, Japan.
10. + “Efficient Solid State Lasers“, N. P. Barnes and B. M. Walsh Advanced Study Institute Conference, June 17-July 1, 1999, Erice, Italy.
11. + “High Efficiency End-Pumped Ho:Tm:YLF Disk Amplifier“, J. Yu, U. N. Singh, M. Petros, T. J. Axenson and N. P. Barnes, Conference on Laser Radar, accepted 1999.
12.   “Improved Q-Switch Drivers“, N. P. Barnes, NASA Tech Brief LAR-14803, July 1999.
13.   “Pulsed 4F3/2 to 4I9/2 Operation of Nd Lasers“, N. P. Barnes, B. M. Walsh, R. L. Hutcheson, and R. W. Equall, Journal of the Optical Society of America B, Volume 16, No. 12, 1999, p. 2169-2177.
14. + “Pulsed Lidar Measurements of Aircraft Wake Vortices at DFW and JFK“, C. L. Britt, D. P. C. Nguyen, and G. J. Koch, AIAA Aviation Environment Conference, Reno, NV, January 1999.
15. + “Pulsed Nd:YAG and Nd:GYAG operating at 0.946 µm“, N.P. Barnes, B.M. Walsh, R.L. Hutcheson, R.W. Equall, Technical digest of the Conference on Lasers and Electro-Optics, Baltimore, Maryland, May 23-28, 1999, pg 390.
16. + “Solid State Laser Ultraviolet Source“, N.P. Barnes, B.M. Walsh, D.J. Reichle, Advanced Solid State Lasers, Boston, MA, 1999.
17. + “Wavelength tuning in Nd-doped YAG, GYAG and YGAG“, B.M. Walsh, N.P. Barnes, R.L. Hutcheson, R.W. Equall, B. Di Bartolo, Technical Digest of the Conference on Lasers and Electro-Optics, Baltimore, Maryland, Technical digest, May 23-28, 1999, p 292.

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1998

1.   “125-mJ diode-pumped injection-seeded Ho:Tm:YLF laser“, J. Yu, U. N. Singh, N. P. Barnes, and M. Petros, 1998 Optics Lett., 23, pp. 780-782.
2. + “2-Micron Diode-Pumped Laser Transmitter for SPARCLE: A Coherent Wind Lidar Shuttle Mission“, U. N. Singh, J. Yu, M. Petros, N. P. Barnes, M. W. Phillips, 19th International Laser Radar Conference, Annapolis, MD, 1998, p.603.
3.   “All Solid State Ho:Tm:YLF 2 µm Power Oscillator“, J. Yu, U. N. Singh, N. P. Barnes, and M. Petros, Optics Letters, about Feb., 1999.
4.   “Branching ratios, cross sections, and radiative lifetimes of rare earth ions in solids: Application to Tm^{3 +} and Ho^{3 +} ions in LiYF₄“, Brian M. Walsh, Norman P. Barnes, Baldassare Di Bartolo, Journal of Applied Physics, March 1, 1998, Volume 83, Issue 5, pp. 2772-2787.
5. + “Compositional tuning of Nd:YGAG to 0.94411 µm“, B. M. Walsh, Norman P. Barnes, D. J. Reichle, and R. L. Hutcheson, Advanced Solid State Laser Conference, vol 19 of OSA Trends in Optics and Photonics Series (Optical Society of America, Washington, DC, 1998, p.416.
6. + “Development of Diode-Pumped Solid State 2-Micron Pulsed Laser for SPARCLE; A Space Shuttle Mission for Wind Measurements“, U. N. Singh, Society for Optical & Quantum Electronics’ “Lasers ’98” Conference, December 7-12, ’98, Tuscon AZ.
7. + “Development of High-Pulse Energy Ho:Tm:YLF Coherent Transmitters“, U. N. Singh, Invited paper 3380-14, Proc. SPIE Vol. 3380, Conference on Laser Radar Technology and Applications III, 12th Annual International Symposium on Aerospace/Defense Sensing, Simulation, and Controls, AeroSense, Orlando, FL (15 April 1998).
8. + “Diode pumped All Solid-State 2-µ Power Oscillator“, J. Yu, U. N. Singh, N. P. Barnes, J. A. Williams-Byrd, G. E. Lockard, E. A. Modlin, and M. Petros, Advanced Solid State Laser Conference, vol 19 of OSA Trends in Optics and Photonics Series (Optical Society of America, Washington, DC, 1998, p. 201.
9.   “An Efficient Raman Amplifier based on Cylindrical Focusing in High Pressure Nitrogen“, W. D. Marsh, W. C. Edwards and J. C. Barnes, 19th International Laser Radar Conference (ILRC), July 1998, Annapolis, Md.
10. + “Er:LuAG Operation at 2.7 µm“, N. P. Barnes, B. M. Walsh, D. J. Reichle, and R. L. Hutcheson, Advanced Solid State Laser Conference, vol 19 of OSA Trends in Optics and Photonics Series (Optical Society of America, Washington, DC, 1998, p. 218.
11. + “An Eye Safe All Solid State Laser For Coherent Wind Lidar In Space“, J. Yu, U. N. Singh, N. P. Barnes, J. C. Barnes, M. Petros, and M. W. Phillips, Optical Remote Sensing For Industry And Environmental Monitoring Conference, Beijing, China September 1998.
12. + “High Energy Diode-Pumped Ho:Tm:YLF Laser for Wind Measurement from Space“, U. N. Singh, N. P. Barnes, J. C. Barnes, J. Yu, and M. Petros, paper CWM3, Conference of Laser and Electro-Optics, OSA, San Francisco, CA , May 3-8, 1998.
13. + “High Energy Diode-Pumped Q-Switched Cr:LiSAF Laser“, G. H. Kim, R. D. Mead, J. W. Pierce, M. S. Bowers, J. A. Skidmore, B. L. Freitas, and N. P. Barnes, Advanced Solid State Laser Conference, vol 19 of OSA Trends in Optics and Photonics Series (Optical Society of America, Washington, DC, 1998, p. 101.
14. + “Injection-Seeded, Room-Temperature, Diode-Pumped Ho:Tm:YLF Laser with Output Energy of 600 mJ at 10 Hz“, U. N. Singh, J. Yu, M. Petros, N. P. Barnes, J. A. Williams-Byrd, G. E. Lockard, and E. A. Modlin, Advanced Solid State Laser Conference, vol 19 of OSA Trends in Optics and Photonics Series (Optical Society of America, Washington, DC, 1998, p. 194.
15.   “Lidar for Atmospheric Remote Sensing“, U. N. Singh, Optical Measurement Techniques and Applications, pp., 369-397, P. K. Rastogi, ed., Artech House, Boston, MA, 1998.
16. + “NASA’s Advanced Laser Technology for Lidar Systems“, J. C. Barnes, Graduate School of Tohoku Institute of Technology, Sendai, Japan, September, 1998.
17. + “Nd:GYAG for Improved Performance of 0.946 µm“, N. P. Barnes, B. M. Walsh, D. J. Reichle, and R. L. Hutcheson, Advanced Solid State Laser Conference, vol 19 of OSA Trends in Optics and Photonics Series (Optical Society of America, Washington, DC, 1998, p. 108.
18.   “Nd:LuLF Operating on the ⁴F_3/2 to ⁴I_11/2 and ⁴F_3/2 to ⁴I_11/2 Transitions“, N. P. Barnes, B. M. Walsh, K. E. Murray, G. J. Quarles, and V. K. Castillo, J. Opt. Soc. Am. B, Vol. 15, No. 11, Nov. 1998, 2788-2793 (1998).
19.   “Nineteenth International Laser Radar Conference“, U. N. Singh, S. Ismail, and G. K. Schwemmer, (Editors), NASA CP-1998-207671/PT1, July 1998, 523 p.
20.   “Nineteenth International Laser Radar Conference“, U. N. Singh, S. Ismail, and G. K. Schwemmer, (Editors), NASA CP-1998-207671/PT2, July 1998, 410 p.
21. + “An Operational Wake Vortex Sensor Using Pulsed Coherent Lidar“, B. C. Barker, Jr., G. J. Koch, and D. C. Nguyen, 19th International Laser Radar Conference (ILRC), July 1998, Annapolis, Md.
22. + “Remote Sensing Of H₂O At 0.94 µm“, N. P. Barnes and B. M. Walsh, Proceedings of SPIE, vol. 3504, Optical Remote Sensing For Industry And Environmental Monitoring Conference, Beijing, China, September 1998.
23. + “Remote Sensing of Planet Earth Challenges for Solid State Lasers“, N. P. Barnes, Laser Physics, Volume 8, No. 1, January-February 1998, p. 25-28.
24.   “A Simple Overhead Denisyuk Configuration for Making Reflection Holograms with a Diode Laser“, G. J. Koch and M. Petros, Am. J. Phys., 66 (10), 933-4, October 1998.
25. – “Solid-State Laser Technology for Atmospheric Remote Sensing“, R. E. Campbell and J. C. Barnes, Society for Optical & Quantum Electronics’ “Lasers ’98” Conference, December 7-12, ’98, Tuscon AZ.
26.   “Spectroscopy and lasing characteristics of Nd-doped Y₃Ga_X AL_5-XO₁₂ materials: application toward a compositionally tuned 0.94 µm laser“, Brian M. Walsh, Norman P. Barnes, Ralph L. Hutchenson, Randy W. Equall, Baldassare Di Bartolo, J. Opt. Soc. Am. B, vol 15, No 11, Nov 1998, pp 2794-2801.
27. + “ZnGeP 2 Parametric Amplifier“, N. P. Barnes, K. E. Murray, M. G. Jani, P. G. Schunemann, and T. M. Pollak, Journal of Optical Society of America. Part B Optical Physics, Volume 15, No. 1, January 1998, p. 232-238.
28. “High Energy Diode Pumped, Q-switched Cr:LiSAF Laser” G.H. Kim, R.D. Mead, J.W. Pierce, M.S. Bower, L.B. Kulesa, J.A. Skidmore, B.L. Feitas, and N.P. Barnes, Proceedings Of The Advanced Solid State Laser Conference, 101-104 (1998).

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1997

1.   “Advanced Laser Earth Observing Capabilities,” James C. Barnes, John A. Costulis, Proceedings of the Space Technology & Applications International Forum, Jan 26 -30, 1997, Albuquerque, NM.
2.   “Coherent Lidar Airborne Wind Sensor II: Flight Test Results at 2 and 10 µm“, Russell Targ, Bruce Steakiley, James Hawley, Lawrence Ames, Paul Forney, David Swanson, Richard Stone, Robert Otto, Vassilis Zarfis, Philip Brockman, Raymond Calloway, Sarah Harell Klein, and Paul Robinson, Applied Optics, 20 Dec 1996, p. 7117-7127.
3.   “Cloud Detection/Editing Experiments on the Lewis and Clark Satellites“, Richard E. Davis, Gale Wislon, and Robert L. Jones. Preprint of the Cloud impacts on DoD Operations and Systems 1997 Conference (CIDOS-97), Phillips Laboratory Technical Report Pl-TR-97-2112, Environmental Research Papers, No 1209, 23 Sept. 1997.
4.   “FireSat and the Global Monitoring of Biomass Burning“, Joel S. Levine, Donald R. Cahoon, Jr., John A. Costulis, Richard H. Couch, Richard E. Davis, Paul A. Garn, Antony Jalink, J., James A. McAdoo, Don M. Robinson, William A. Roettker, Washito A. Sasamoto, Robert T. Sherril, and Kelly D. Smith, chapter 12 of Biomass Burning and Global Change, MIT Press, Dec., 1996.
5. + “Flashlamp Pumped, Room Temperature, Nd:YAG Laser Operating at 0.946 Micrometers”, Norman P. Barnes, Keith E. Murray, Brian M. Walsh, Advanced Solid State Laser Conference, Jan 26-31, 1997, Orlando, FL.
6.   “Flash-lamp-pumped Ho:Tm:Cr:YAG and Ho:Tm:Er:YLF lasers: experimental results of a single, long pulse length comparison“, Mahendra Jani, Norman P. Barnes, and Keith Murray, Applied Optics, 20 May 1997.
7.   “Flash-lamp-pumped Ho:Tm:Cr:YAG and Ho:Tm:Er:YLF lasers: modeling of a single, long pulse length comparison“, Norman P. Barnes, Mahendra Jani, and Keith Murray, Applied Optics, 20 May 1997.
8. + “Ho:Tm:Er:LuAG and Two Wavelength Oscillation“, Keith E. Murray, Norman P. Barnes, Brian M. Walsh, Ralph E. Hutcheson, Advanced Solid State Laser Conference, Jan 26-31, 1997, Orlando, FL.
9.   “NASA Partners for Faster, More Reliable Gas Sensor“, Ferdinand Chew, Aerospace Technology Innovation, March-April, 1977.
10.   “Nd:LuLF, a New Nd Laser Material“, Norman P. Barnes, Keith E. Murray, and Brian M. Walsh, Vida K. Castillo and Gregory J. Quarles, Advanced Solid State Laser Conference, Orlando, Florida, January 26-31, 1997.
11.   “On the distribution of energy between the Tm ³F ₄ and Ho ⁵I ₇ manifolds in Tm-sensitized Ho luminescence“, Brian M. Walsh, Norman P. Barnes, and Baldassare Di Bartolo, Journal of Luminescence, Volume: Volume 75 , Issue: no. 2 , Page: p. 89-98, published 1997-09-01.
12.   “Pulsed Coherent Laser Radar for Wake Vortex Measurement“, Ben Barker, Jr., Philip Brockman, and Grady Koch, Photonics Spectra, April 1997.
13. * “Room-temperature, diode-pumped Ho:Tm:YLF laser amplifiers generating 700 mJ at 2-µm“, J. A. Williams-Byrd, U. N. Singh, N. Barnes, G. Lockard, E. Modlin, and J. Yu, Conf. on Advanced Solid-State Lasers-Twelfth Topical Meeting, Optical Society of America, Orlando, Florida, January 27-29, 1997.

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1996

1. + “Compositionally Tuned Solid State Lasers“, N.P. Barnes, B.M. Walsh, R.L. Hutcheson, in Advanced Solid-State Lasers, vol. 1 of OSA Trends in Optics and Photonics Series (Optical Society of America, Washington, D.C., 1996), p. 522.

2. + “Self Quenching Of The Nd 4F3/2 Manifold” N.P. Barnes, E.D. Filer, and C.A. Morrison, in Advanced Solid-State Lasers, vol. 1 of OSA Trends in Optics and Photonics Series (Optical Society of America, Washington, D.C., 1996), p. 526.

3. + “High Energy Diode Side Pumped Cr:LiSrAlF6 Laser” C.C. Johnson, D.L. Reichle, N.P. Barnes, and G.J. Quarles, Hutcheson, in Advanced Solid-State Lasers, vol. 1 of OSA Trends in Optics and Photonics Series (Optical Society of America, Washington, D.C., 1996), p. 120.

4. + “Modeling and Performance of 2.0µm Lasers: Projections for Remote Wind Sensing” N.P. Barnes,W.J. Rodriguez, B.M. Walsh, 18th International Laser Radar Conference, Berlin, Germany (1996).

5. “Energy Transfer and Thermalization Between Tm3+ and Ho3+ Ions in YLF”, B.M. Walsh, and B. Di Bartolo, in Bulliten of the American Physical Society, vol. 41, Program of the 1996 March Meeting, p. 150.

6. “Spectroscopy and Development of Solid State Lasers at NASA” N.P. Barnes, C.A Morrison, E.D. Filer,W.J. Rodriguez, and B.M. Walsh, in Spectroscopy and Dynamics of Collective Excitations in Solids, B. Di Bartolo, editor, (Plenum Press, New York and London, 1996), p.485.

7. + “Rate Equation Modeling of Tm ® Ho Energy Transfer in LiYF4“, B.M. Walsh, in Spectroscopy and Dynamics of Collective Excitations in Solids, B. Di Bartolo, editor, (Plenum Press, New York and London, 1996), p. 626.

8. “Ho:Tm:YLF laser amplifiers” N.P. Barnes, W.J. Rodrigues, B.M. Walsh, Journal of the Optical Society of America B, 13, 2872 (1996).

9. “Room Temperature Lasing Of End Pumped Ho:Lu3Al5O12,” D.W. Hart, M. Jani, and N.P. Barnes, Opt. Lett. 21, 728-730 (1996)

10. “Ho:Tm Lasers I: Theoretical” N.P. Barnes, E.D. Filer, C.A. Morrison, and C.J. Lee, IEEE J. Quant. Elect. QE-32 92-103 (1996)

11. “Ho:Tm Lasers II: Experiments” C.J. Lee, G. Han, and N.P. Barnes, IEEE J. Quant. Elect. QE-32 104-111 (1996)

12. “A Review Of Performance And Tuning Of Ho Lasers” N.P. Barnes, Recent Res. Devel. In Applied Optics, 1 47-58 (1996)

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1995

1. + “Radiative and Nonradiative Transitions of the Rare Earth Ions Tm3+ and Ho3+ in Y3Al5O12 and LiYF4” B.M. Walsh, G. Armagan, B. DiBartolo, E.A. Modlin, NASA Conference Publication 3314, Second Annual Research Center for Optical Physics (RCOP) Forum, (1995), p. 99.

2. + “Thermal Lineshift and Broadening of  Ho3+ in Y3Al5O12 and Lu3Al5O12” E.R. Snoke, G. Armagan,G.W. Grew, N.P. Barnes, and B.M. Walsh, NASA Conference Publication 3314, Second Annual Research Center for Optical Physics (RCOP) Forum, (1995), p. 109.

3. + “Spectroscopy and Excitation Dynamics of the Trivalent Lanthanides Tm3+ and Ho3+ in LiYF4”, Brian M. Walsh, NASA Contractor Report 4689 (1995).

4. + “ZnGeP2 Parametric Amplifier” N.P. Barnes. K.E. Murray, M.G. Jani, T. Pollak, and P. Schunemann, OSA Proceedings On Advanced Solid State Lasers, 24, 154-157 (1995)

5. + “Flashlamp Pumped Ho:Tm:Cr:LuAG Laser”, N.P. Barnes, K.E. Murray, M.G. Jani, and M.R. Kokta, OSA Proceedings On Advanced Solid State Lasers, 24, 352-357 (1995)

6. + “Diode Pumped, Long Pulse Ho:Tm:YLiF4 Laser At 10 Hz” M.G. Jani, N.P. Barnes, K.E. Murray, andG.E. Lockard, OSA Proceedings On Advanced Solid State Lasers, 24, 362-365 (1995)

7. + “Small Signal Gain Of Ho:Tm:YLiF4 At High Pump Fluence” W.J. Rodriguez, M.E. Storm, and N.P. Barnes, OSA Proceedings On Advanced Solid State Lasers, 24, 392-395 (1995)

8. + “Comparison of Spectroscopic Properties of Ce3+ in Fluoride Crystals” Guzin Armagan, Donald H. Reinhart Jr., W.D. Marsh, James C. Barnes, Bruce Chai, OSA Proceedings On Advanced Solid State Lasers, 24, 470-473 (1995)

9. “Diode Pumped Long Pulse Length Ho:Tm:YLiF4 Laser At 10 Hz” M.G. Jani, F.L. Naranjo, N.P. Barnes,K.E. Murray, and G.E. Lockard, Opt. Lett. 872-875 (1995)

10. + “Physics Of Quasi Four Level Lasers” N.P. Barnes, Proceedings Of The Photonics West Conference, San Jose, CA, 2-9, (1995)

11. + “Gain Measurements In Ho:Tm:YLiF4” W.J. Rodriguez, M.E. Storm, and N.P. Barnes, Proceedings Of The Photonics West Conference, San Jose, CA, 10-12, (1995)

12. + “Flashlamp Pumped Room Temperature Ho:Tm:LuAG Laser” K.E. Murray, N.P. Barnes, M.G. Jani, and R.L Hutcheson, Proceedings Of The Photonics West Conference, San Jose, CA, 13-16, (1995)

13. “Average Power Effects In Parametric Oscillators And Amplifiers” N.P. Barnes, and J.A. Williams-Byrd, J. Opt. Soc. Am. B, 12, 124-131 (1995)

14. “Atmospheric Thermal Lensing In Laser Resonators” N.P. Barnes, M.E. Thomas, G.J. Koch, W.D. Marsh, IEEE J. Quant. Elect. QE-31, 962-969 (1995)

15. “Diode Pumped, Room Temperature Tm:LuAG Laser” N.P. Barnes, M.G. Jani, and R.L. Hutcheson, Appl. Opt., 34 4290-4294 (1995)

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1994

1. + “YLF isomorphs for Ho and Tm laser applications” E.D. Filer, C.A. Morrison, N.P. Barnes, B.M. Walsh, in OSA Proceedings on Advanced Solid State Lasers, vol. 20, (Optical Society of America, Washington, D.C., 1994), p. 127.

2. + “Determination of Tm-Ho rate coefficients from spectroscopic Measurements” G. Armagan, B.M. Walsh, N.P. Barnes, A.M. Buoncristiani, E.A. Modlin, in OSA Proceedings on Advanced Solid State Lasers, vol. 20, (Optical Society of America, Washington, D.C., 1994), p. 141.

3. + “Diode Pumped Ho:Tm:Lu3Al5O12 Room Temperature Laser“,  M.G. Jani, N.P. Barnes, K.E. Murray, and R.L. Hutcheson, OSA Proceedings On Advanced Solid State Lasers, 20, 109-111 (1994)

4. + “Mid Infrared Parametric Oscillator Tuned Via Pump Wavelength Tuning” N.P. Barnes, K.E. Murray,M.G. Jani, and S.R. Harrell, OSA Proceedings On Advanced Solid State Lasers, 20, 454-457 (1994)

5. “Diode Pumped Ho:Tm:YLF Laser Pumping An AgGaSe2 Parametric Oscillator” N.P. Barnes, K.E. Murray, M.G. Jani, and S.R. Harrell, J. Opt. Soc. Am. B, 11, 2422-2426 (1994)

6. “Spectroscopy and dynamics of of energy transfer processes in laser-type solids,” B. Di Bartolo, G. Armagan, M. Buoncristiani, Opt. Mat. 4, 11-23 (1994)

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1993

1. + “Radiative and Nonradiative Transitions of the Rare Earth Ions Tm3+ and Ho3+ in Y3Al5O12 and LiYF4“, B.M. Walsh, G. Armagan, B. DiBartolo, E.A. Modlin, in International Conference on Luminescence ’93 Technical Digest, M4-30 (1993).

2. “Spectroscopic And Lasing Properties Of Ho:Tm:LuAG,”  N.P. Barnes, E.D. Filer, F.L. Naranjo, W.J. Rodriguez, and M.R. Kokta, Opt. Lett., 18, 708-710, (1993)

3. + “Diode Pumped Nd:LMA Laser” N. Sims Jr., N.P. Barnes, D. Reichle Jr., and S. Sharpe,  Proceedings On Advanced Solid State Laser Conference, 13, 197-201 (1992)

4. + “Injection Seeded Optical Parametric Oscillator” N.P. Barnes, K.E. Murray, G.H. Watson, Proceedings On Advanced Solid State Laser Conference, 13, 356-360 (1992)

5. + “Energy Transfer Using A Quantum Mechanical Model” N.P. Barnes, E.D. Filer, C.A. Morrison, OSA Proceedings On Advanced Solid State Lasers, 15, 220-223 (1993)

6. + “Flashlamp Pumped Nd:BaY2F8” N.P. Barnes, K.E. Murray, A Cassanho, K.M. Dinndorf, and H.P. Jenssen, OSA Proceedings On Advanced Solid State Lasers, 15, 24-27, (1993)

7. + “Spectroscopy And Lasing In Ho:Tm:Lu3Al5O12” E.D. Filer, N.P. Barnes, F.L. Naranjo, and M.R. Kokta, OSA Proceedings On Advanced Solid State Lasers, 15, 411-414, (1993)

8. + “Long Pulselength Two Micrometer Lasers For LAWS Application” M.G. Jani, N.P. Barnes, and K.E. Murray, OSA Proceedings On Advanced Solid State Lasers, 15, 424-426, (1993)

9. + “Alexandrite Laser Pumped Ho:Tm:YLF Laser Performance” C.J. Lee, G. Hon, C.H. Bair, N.P. Barnes,P. Brockman, and R.V. Hess, OSA Proceedings On Advanced Solid State Lasers, 15, 427-431, (1993)

10. + “Laser Operation Of 1.76 mm Pumped Ho:Tm:LuAG”  W.J. Rodriguez, N.P. Barnes, E.D. Filer, andF.L. Naranjo, OSA Proceeding On Advanced Solid State Lasers, 15, 459-462, (1993)

11. “Injection Seeding: I Theory” N.P. Barnes and J.C. Barnes, IEEE J. Quant. Elect., QE-29, 2670-2683, (1993)

12. “Injection Seeding: II Ti:Al2O3 Laser Experiments” J.C. Barnes, N.P. Barnes, W.C. Edwards, and L.G. Wang, IEEE J. Quant. Elect., QE-29, 2684-2692, (1993)

13. “Long Pulse Length 2.0 mm Diode Pumped YLiF4 Laser” M.G. Jani, N.P. Barnes, K.E. Murray, and G.E. Lockard, Opt. Lett., 18, 1636-1638, (1993)

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1992

1. “Variation Of The Verdet Constant With Temperature Of Terbium Gallium Garnet” N.P. Barnes and L.B. Petway, J. Opt. Soc. Am. B, 9, 1912-1915 (1992)

2. + “Characterization Of A Double Pulse Laser System” J.A. Williams-Byrd, J.C. Barnes, N.P. Barnes, C. Banziger, W. Marsh, and C. Nichols, SPIE, 1627 74-77 (1992)

3. + “Optimization Of Rod Diameter In Solid State Lasers Side Pumped With Multiple Laser Diode Arrays“N. Sims Jr., C.M. Chamblee, N.P. Barnes, G.E. Lockard, and P. L. Cross, SPIE, 1627 153-165 (1992)

4. + “Evaluation Of Stable And Unstable Resonator Configurations For Efficient Second Harmonic Laser Systems” J.A. Williams-Byrd and N.P. Barnes, SPIE, 1627 281-285 (1992)

5. “Spectroscopic And Lasing Properties Of Ho:Tm:LuAG” N.P. Barnes, E.D. Filer, F.L. Naranjo, W.J. Rodriguez, and M.R. Kokta, Opt. Lett., 18, 708-710, (1993)

6. + “Diode Pumped Nd:LMA Laser” N. Sims Jr., N.P. Barnes, D. Reichle Jr., and S. Sharpe, Proceedings On Advanced Solid State Laser Conference, 13, 197-201 (1992)

7. + “Injection Seeded Optical Parametric Oscillator” N.P. Barnes, K.E. Murray, G.H. Watson, Proceedings On Advanced Solid State Laser Conference, 13, 356-360 (1992)

8. “Excited state dynamics of thulium ions in Yttrium Aluminum Garnet,” G. Armagan, M. Buoncristiani, Opt. Mat. 1, 11-20 (1992)

A

Aerosols

1. * “Measurements of Stratospheric Aerosols with a Combined Rayleigh/Raman Lidar“, M. Gross, T.J. McGee, U.N. Singh, and P. Kimvilakani , Appl. Opt., 34, 6915-6924 (1995).
2.   “Correlation of Ozone Loss with the Presence of Volcanic Aerosols“, T.J. McGee, P.Newman, M. Gross, U.N. Singh, S. Godin, A.-M. Lacoste and G. Megie, Geophys. Res. Lett., 21, 2801-2804 (1994).
3.   “Multi-Wavelength Profiles of Aerosol Backscatter Ratios over Lauder New Zealand, 24 November 1992“, R.L. McKenzie, J.W. Rosen, N.T. Kjome, T.J. McGee, M.R. Gross, U.N. Singh, R.F. Ferrare, P. Kimvilakani, O.Uchino, and T. Nagai, Geophys. Res. Lett., 21, 789-792, (1994)
4. + “Measurements of Stratospheric Aerosols with a combined Rayleigh/Raman DIAL Lidar“, M. Gross, T.J. McGee, U.N. Singh, 17th International Laser Radar Conference, Sendai, Japan, July 22-29, 1994.
5. + “Measurements of Pinatubo Aerosols at Southern Mid-Latitudes“, M.R. Gross, T.J. McGee, U.N. Singh, R.L. McKenzie, and J.W. Rosen, Conference Proceedings Optical Society of America, Salt Lake City, Utah, 8-12 March 1993.
6. * “Arrival of Pinatubo Disturbances in the Stratospheric Aerosol over Fort Collins, CO. Observed by a Lidar at 589 nm“, H Chen, J.R.Yu and C.Y.She, Appl. Phys. B55, 149-153, (1992).
7. * “Multiple Stokes Wavelength Generation in H2, D2, and CH4 for Lidar Aerosol Measurements“, Z. Chu,U.N. Singh, and T.D. Wilkerson, Appl. Opt.,30, 4350-4357 (1991).
8. + “353 nm Lidar Measurements of the Mt. Pinatubo Aerosol Cloud“, T.J. McGee, M.R. Gross, andU.N.Singh, Technical Digest of Optical Remote Sensing of the Atmosphere, Williamsburg, VA, November 18-21, 1991.
9. + “Generation of Eye-Safe Radiation for Aerosol Lidar Operation“, U.N. Singh, Z. Chu, and T.D. Wilkerson, IEEE Digest of International Geoscience and Remote Sensing Symposium (IGARSS ’90), College Park, MD, May 20 24, 1990.
10. + “Multiple Wavelength Generation by SRS Technique for Aerosol Measurement“, Z. Chu, U.N. Singh, and T.D. Wilkerson, Proc. 15th Internat. Laser Radar Conf., Tomsk, U.S.S.R., July 23 27, 1990.
11. + “Some Observations of Aerosol and Rayleigh Scattering in the Stratosphere at the Wavelength 8 = 0.532 µ“, W.C. Braun, A. Notari, B. Bloomer, G. Treacy, U. N. Singh, and T.D. Wilkerson, Proc. 14th Internat. Laser Radar Conf., Innichen, San Candido, Italy, p 412-415, June 20 24, 1988.

Atmospheric Chemistry and Physics

1.   “Climatology of a midlatitude mesopause region observed by a lidar at Fort Collins, CO (40 N. 105 W)“, J.R.Yu and C.Y.She, Journal Of Geophys. Res., 100, 7441-7452, 1995.
2. * “Doppler-free saturation fluorescence spectroscopy of Na atoms for atmospheric application“, C.Y.She, J.R.Yu, Appl. Optics, 34, 1063-1075, (1995).
3.   “Vertical structure of the midlatitude temperature from stratosphere to mesopause (30-105 km)“, C.Y.She, J.R.Yu, D.A.Krueger, R.Roble, P.Keckhut, A.Hauchecome and M.Chanin, Geophys. Res. Lett 377-380, 1995.
4.   “Seasonal variations of the thermal structure of the mesopause region at Urbana, IL. (40 N, 88W) and Ft.Collins, CO(41 N, 105W)“, D.C.Senft, G.C.Papen, C.S.Gardner, J.R.Yu, D.A.Krueger and C.Y.She, Geophys. Res. Lett.,21, 821-924,1994.(cover paper).
5.   “Simultaneous three-frequency Na lidar measuremens of radial wind and temperature in the mesopause region“, C.Y.She, J.R.Yu, Geophys. Res. Lett.,22,1771-1774, (1994).
6. * “Lidar Observed Temperature Structure and Gravity Wave Pertubations of the Measopause Region in the Spring of 1990-1992 over Fort Collins, CO“, J.R.Yu and C.Y.She, Appl. Phys B57, 231-238, (1993).
7.   “Observed Thermal Structure of a Mid latitude Mesopause“, C.Y.She, J.R.Yu, H.Chen, Geophys. Res. Lett., 20 560-570 (1993).
8. * “High Spectral Resolution Fluorescence Lidar for Mesosphric Sodium Temperature Measurements“, C.Y.She, J.R.Yu, H.Latifi, and R.E.Bills, Appl. Opt. 31, 2095-2106 (1992).
9. * “Initial Spring Temperature Profiles of the Mesopause Region over Fort Collins, CO. Measured by the Colorado State Na Temperature Lidar“, J.R.Yu, J.W.Huang, H. Latifi and C.Y.She, Appl. Phys. B55,154-158 (1992).
10.   “Na Temperature Lidar Measurements of Gravity Wave Pertubations of Wind, Density and Temperature in the Mesopause Region“, C.Y.She, J.R.Yu, J.W.Huang, C.Nagasawa, Geophy. Res.Lett, 18, 1329-1363 (1991).
11.   “Simultaneous Lidar and Airglow Temperature Measurements in the Mesopause Region“, J.R.Yu, H.Latifi, C.Y.She, J.H.Yee and R.J.Niciehiewski, Geophys, Res. Lett. 18, 1361-1363 (1991).

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C

Cloud Studies

1.   “Cloud Effects on Laminar-Flow Aircraft Performance“, Richard E. Davis and Dal V. Maddalon. Proceedings of the Cloud Impacts on DOD Operations and Systems 1993 Conference(CIDOS-93), Phillips Laboratory Technical Report TR-94-2188, Environmental Research Papers, No. 1152, 1 July, 1994.
2. + “Lidar Measurement of Thin Cirrus and Clear Air Background“, U.N. Singh, T. D. Wilkerson, A. Notari, and B. Bloomer, Proc. Cloud Impacts on DoD Operations and Systems (CIDOS 90) Workshop, Monterey, CA, p 1 6, Jan. 9 11, 1990.
3. + “Lidar Measurement of Thin Cirrus and Clear Air Scattering“, U.N. Singh, A. Notari, B. Bloomer, and T.D. Wilkerson, Proc. 15th Internat. Laser Radar Conf., Tomsk, U.S.S.R., July 23 27, 1990.
4. + “Lidar Measurement of the Upper Atmosphere and Thin Cirrus Clouds“, U.N. Singh, B. Bloomer, T.D. Wilkerson, and A. Notari, Proc. Conf. on Laser and Electro-Optics (CLEO ’90), Anaheim, CA, May 21 25, 1990.
5.   “Evaluation of Cloud Detection Instruments and Performance of Laminar-Flow Leading-Edge Test Articles During NASA Leading-Edge Flight-Test Program“, by Richard E. Davis, Dal V. Maddalon, David F. Fischer and Ronald Young, NASA TP-2888 (FEDD), April,1989.
6.   “Extinction and Backscatter by Cirrus Clouds: Lidar Measurements“, U.N. Singh and T.D. Wilkerson, Technical Note BN 1106, University of Maryland, November 1989.
7. + “Extinction and Backscatter by Cirrus Clouds: Lidar Measurements“, U.N. Singh and T.D. Wilkerson, Proc. International Workshop on Space Observations of Tropospheric Aerosols and Complementary Measurements, Hampton, VA, November 15 18, 1989.
8.   “High Altitude Cloud Observations by Ground-Based Lidar, Infrared Radiometer and Meteosat Measurements“, P. Flamant, G. Brogniez, M. Debois, Y. Fouquart, J. F. Flobert, J.C. Vanhoutte, and U.N. Singh, Annales Geophysicae, 7, 1 10 (1989).
9. + “Lidar Measurements of the Optical Propagation Environment“, T.D. Wilkerson, A. Notari, and U.N. Singh, Proc. Cloud Impacts on Ground-Based Laser: Hole-Boring and Lidar Program Review (SDIO/DE (WPD-D170)), Washington D.C., p 137 157, May 10, 1989.
10. + “Lidar Measurements of Scattering and Extinction by Cirrus Clouds“, T.D. Wilkerson, A. Notari, U.N. Singh, and W.C. Braun, Proc. 12th Annual Review Conference on Atmospheric Transmission Models, AFGL, Bedford, MA, p 288 304, June 6 7, 1989.
11. + “Temperature and Density Profiling in the Middle Atmosphere, and Cirrus Cloud and Haze Layer Measurements in the Troposphere“, U.N. Singh, A. Notari, T.D. Wilkerson, B. Bloomer, G. Treacy, S. Yang, Z. Chu, W.C. Braun, and M. Martins, Proc. Conf. on Laser and Electro-Optics (CLEO’89), Baltimore, MD, p 126 127, April 24 28, 1989.
12. + “Lidar Measurements of the Troposphere and Middle Atmosphere“, T.D. Wilkerson, U.N. Singh, W.C. Braun, M. Martins, B. Bloomer, G. Treacy, S. Yang, Z. Chu, and A. Notari, Proc Cloud Impacts on DoD Operations and Systems (CIDOS 88) Workshop, Silver Spring, MD, October 18 20, 1988.
13. + “Performance of Laminar-Flow Leading-Edge Test Articles in Cloud Encounters“, Richard E. Davis, Dal V. Maddalon, and Richard D. Wagner, pp163-193 in Part 1 of Research in Natural Laminar Flow and Laminar-Flow Control, NASA CP-2487(FEDD), 1987.
14. + “Cloud Particle Effects on Laminar Flow in the NASA LEFT Program: Preliminary Results“, Richard E. Davis, Michael C. Fischer, David F. Fisher and Ronald Young, AIAA Paper 86-9811, Presented at AIAA 3rd Flight Testing Conference, April 2-4,1986, Las Vegas, Nevada.
15.   “Variability of Cloudiness at Airline Cruise Altitudes from GASP Measurements“, William H. Jasperson, Gregory D. Nastrom, Richard E. Davis and James D. Holdeman, Journal of Climate and Applied Meteorology, Vol.24, No.1, January, 1985.
16.   “Cloud Particle Detector“, Richard E. Campbell and J. P. McPherson, NASA Tech Brief, 1984.
17.   “GASP Cloud Encounter Statistics;Implications for Laminar Flow Control Flight“, W. H. Jasperson, G.D. Nastrom, R.E. Davis, and J.D. Holdeman. AIAA Journal of Aircraft, Vol.21, No.11, pp 851-856, November,1984.
18.   “GASP Cloud-and Particle-Encounter Statistics, and their Application to LFC Aircraft Studies“, William H. Jasperson, Gregory D. Nastrom, Richard E. Davis and James D. Holdeman, NASA TM 85835 (2 vols.), October,1984.
19. + “Cloud Particle Effects on Laminar Flow and Instrumentation for their Measurement Aboard a NASA LFC Aircraft“, Richard E. Davis and Michael C. Fischer, AIAA Paper 83-2734,Presented at AIAA 2nd Flight Testing Conference, November 16-18,1983, Las Vegas, Nevada.
20. + “”Cloud Encounter Statistics in the 28.5-43.5 kft. Altitude Region from Four Years of GASP Observations“, W.H. Jasperson, G.D. Nastrom, R.E. Davis, and J.D. Holdeman, Proceedings, Ninth Conference on Aerospace and Aeronautical Meteorology (American Meteorological Society) June 6-9, 1983, Omaha, Nebraska, pp159-164.
21.   “Cloud Encounter and Particle Number Density Variabilities from GASP Data“, G .D. Nastrom, J.D.Holdeman, and R.E. Davis, AIAA Journal of Aircraft, Vol.19, No.4, pp 272-277, April,1982.
22.   “Probability of Laminar Flow Loss Because of Ice Crystal Encounters“, Richard E. Davis, in Laminar Flow Control: 1981 Research and Technology Studies, NASA CP-2218, 1982, pp 75-94.
23.   “Cloud-Encounter and Particle-Concentration Variabilities from GASP Data“, Gregory D. Nastrom, James D. Holdeman, and Richard E. Davis, NASA TP 1886, December,1981.
24. + “Cloud Encounter and Particle Density Variabilities from GASP Data“, G.D. Nastrom, J.D. Holdeman, and R.E. Davis, AIAA Paper 81-0308,presented at AIAA 19th Aerospace Sciences Meeting, January 12-15, 1981, St.Louis, Missouri.
25.   “Estimating Probabilities of Cloud-Free Fields- of-View from the Earth Through the Atmosphere“, Iver A. Lund, Donald D. Grantham, and Richard E. Davis, Journal of   Applied Meterology, Vol.19, No.4, pp 452-463, April, 1980.
26.   “Meteorological and Operational Aspects of 46 Clear Air Turbulence Sampling Missions with an Instrumented B57B Aircraft“, R. E. Davis, R. A. Champine, and L.J. Ehernberger, NASA TMX-80044, May,1979.
27. + “Estimating the Probability of Cloud-Free Fields-of-View Between Earth and Airborne or Space Platforms“, Donald D. Grantham, Iver A. Lund, and Richard E. Davis, Proceedings of the Eighth Technical Exchange Conference (USAF AIr Weather Service), November 28-December 1, 1978, AWS/TR-79/001, pp 207-214.

Cr:LiSAF Lasers

1. + “Dual-rod Cr:LiSAF oscillator/amplifier for remote sensing applications“, James W. Early, Charles Lester, Nigel J. Cockroft, Christyl Johnson, Donald Reichle, and David Mordaunt, Optical Society of America Trends in Optics and Photonics on Advanced Solid State Lasers, vol. 1, Jan. 31 – Feb 2, 1996. (Presenter– Nigel Cockroft and Christyl Johnson).
2. +*“High Energy Diode Side Pumped Cr:LiSrAlF6 Laser“, C. C. Johnson, D. R. Reichle, N. P. Barnes, and G. J. Quarles, Proceeding Of The Advanced Solid State Laser Conference, San Francisco CA, 120-123, (1996).
3. + “High Energy Diode Side-Pumped Cr:LiSAF Laser“, Christyl C. Johnson, Donald J. Reichle, Norman P. Barnes, Gregory Quarles, James W. Early, and Nigel J. Cockroft, Optical Society of America Trends in Optics and Photonics on Advanced Solid State Lasers, vol. 1, Jan. 31 – Feb. 2, 1996. (Presenter– Christyl Johnson).
4. + “Developments in Cr:LiSrAlF6 Crystal Growth for Diode-Pumped Laser Technologies“, G. Quarles andJ. Barnes, 7th Annual Diode Laser Technology Conference, Ft. Walton Beach, FL, April 19-21, 1994.
5.   “Cr:YSAG – A Tunable Near-Infrared Laser Material“, N. P. Barnes, D. K. Remelius, D. J. Gettemy, and M. R. Kokta, Tunable Solid State Lasers II Springer Series in Optical Sciences, 52, Springer-Verlag (1986).
6. * “Flashlamp Pumped Cr:GSAG Laser“, IEEE J. Quantum Electronics, J. V. Meier, N. P. Barnes, D. K. Remelius, and M. R. Kokta, QE-22, 2058 – 2063 (1986).

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D

DIAL Technology

1. + “Evaluation of NASA LASE Water Vapor DIAL System Performance Using Engineering Test Flight Measurements“, S. Ismail, E. Browell, W. M. Hall, J. Barnes, W. Luck, A. Little, and S. Kooi, International Geoscience and Remote Sensing Symposium, Firence, Italy, 7/95
2. + “Feasibility Study for a Spaceborne Ozone/Aerosol Lidar System“, R. E. Campbell, E. V. Browell, S. Ismail, A. E. Dudelzak, A. I. Carswell, and Arkady Ulitsky, International Laser Radar Conference, Berlin Germany, (1996).
3. + “RPA Based Differential Absorption Lidar for Remote Monitoring of Atmospheric Water Vapor and Aerosol Distributions“, E. V. Browell, S. Ismail, N. P. Barnes, J. C. Barnes, and R. H. Couch, RPA Workshop, Wmsbg, VA, Nov 96.
4. + “Solid State Laser Technology Development for NASA DIAL and Lidar Systems“, James Barnes, Christyl Johnson, Elka Ertur, and Richard Campbell, AAIA 1995 Space Programs and Technologies Conference, September 26-28, 1995; Huntsville, AL. (Presenter– Christyl Johnson).
5. “Spaceborne Water Vapor, Ozone, Aerosol, and Cloud Lidar Systems“, E. V. Browell and R. E. Campbell, Workshop on Earth Science Missions and Technology, Wmsbg, VA, 3/96.

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E

Electronics

1.   “A Compact and Economical TEC Controller“, G. E. Lockard, submitted to NASA Tech Briefs for publication.
2.   “A System for Nano-second Synchronization of Two Lasers“, George Lockard, NASA Tech Briefs, March 1995, vol 19, no 3.
3. * “Pulsed Laser Prelasing Detection Circuit“, George Lockard, presented at the Technology 2001 Conference, December 3 – 5, 1991, San Jose, Ca. and published in the Tech 2001 Proceedings, written up in Photonics, Feb 1992.
4.   “Space Age Atari“, George E. Lockard, Antic Computer Magazine, vol 8, no 1, May, 1989.

Environmental Studies

1.   “Firesat and the Global Monitoring of Biomass Burning“, Joel S. Levine, Donald R. Cahoon, Jr., John A. Costulis, Richard H. Couch, Richard E. Davis, Paul A. Garn, Antony Jalink, Jr., James A. McAdoo, Don M. Robinson, William A. Roettker, Washito A. Sasamoto, Robert T. Sherrill, and Kelly D. Smith, Chapter 12 in “Biomass Burning and Global Change: Volume 1: Remote Sensing, Modeling and Inventory Development, and Biomass Burning in Africa”, MIT Press, Cambridge, MA December, 1996.
2. + “Firesat and the Monitoring of Fires in the World’s Boreal Forests“, Joel S. Levine, Donald R. Cahoon, Richard H. Couch, Richard E. Davis, Antony Jalink, James A. McAdoo, Don M. Robinson, and Robert T. Sherrill, presented at 7th Conference of the International Boreal Forest Research Association, St. Petersburg, Russia, August 19-23, 1996.
3.   “Influence of Atmospheric Aerosols and Desert Reflectance Properties on Satellite Radiance Measurements“, D. E. Bowker and R. E. Davis. Int. J. Remote Sensing, Vol. 13, No. 16, pp 3105-3126, 1992.

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Gas Lasers

1.   “Effect of Buffer Gas on the Generation of 1.54 µ Eye-Safe laser in CH4“, K. Sentrayan, A. T. Michael,U.N. Singh, V.S. Kushwaha, Opt. Comm., 1996.

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HALOE

1.   Validation of Temperature Measurements from the Halogen Occultation Experiment, M.E. Hervig, J.M. Russell III, L.L. Gordley, S.R. Drayson, K. Stone, R.E. Thomson, M.E. Gelman, I.S. McDermid, A. Hauchecorne, P. Keckhut, T.J. McGee, U.N. Singh, and M.R. Gross, J. Geophys. Res., 101, 10,277-10,286 (1996).

Horizon Scanner: Our Beginnings

1.   “Conceptual Design and Analysis of an Infrared Horizon Sensor with Compensation for Atmospheric Variability, A. Jalink, R. E. Davis, and J.A. Dodgen, NASA TND-6616, February, 1972.
2.   “A Limb Radiance Calculation Approach for Model Atmospheres Containing Horizontal Gradients of Temperature and Pressure“, R.E. Davis, NASA TND-4905, October,1969.
3.   “Infrared Horizon Profiles for Winter Conditions from Project Scanner“, R.I.Whitman, T.B. Mckee, andR.E. Davis, NASA TND- 4905, December, 1968.
4.   “Infrared Horizon Profiles for Summer Conditions from Project Scanner“, T.B. McKee, R. I. Whitman, and R. E. Davis, NASA TND- 4741, August,1968.
5.   “Radiometric Measurements of the Earth’s Infrared Horizon from the X-15 in Three Spectral Intervals“,A. Jalink, R.E. Davis, and D. E. Hinton, NASA TND-4654, July, 1968.
6.  “Preliminary Infrared Horizon Profiles from Project Scanner“, T. B. McKee, R. I Whitman, and R. E. Davis, NASA TMX-1483, December,1967.

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I

Interplanetary Meteorology

1.   “Calculations of the Limb Radiance of Venus in the 600 -700 cm-1 Region and Their Application to Spacecraft Navigation“, G. Ohring, R. E. Davis, and A. Jalink, Infrared Physics, Vol.13, pp.213-232, 1973.
2.   “Explorer XXIII Pressurized Cell Micrometeoroid Experiment. LWP-73“, C. A. Gurtler and G. W. Grew(compiled by Earl C. Hastings).
3.   “Explorer XXIII Pressurized Cell Micrometeoroid Experiment. Preliminary results for the period November 6, 1964 through February 15, 1965“, C . A. Gurtler and G. W. Grew, TM X-1123 (compiled by Robert L. O’Neal).
4.   “Explorer XXIII Pressurized Cell Micrometeoroid Experiment. Results for the period November 6, 1964, through November 5, 1965“, C. A. Gurtler and G. W. Grew, TM D-4284 (compiled by Robert L. O’Neal).
5.   “Meteoroid Hazard Near Moon“, G. W. Grew and C. A. Gurtler, Science, August 2, 1968
6.   “The Lunar Orbiter Meteoroid Experiments. Description and Results from Five Spacecraft“, G. W. Grew and C. A. Gurtler, TN D-6266, June 1971.

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LACATE

1. + “Modeling of the Temperature Wake Surrounding a High Altitude Balloon Research Package and Simulation of its Radiometric Effects for the LACATE Experiment“, R.E. Davis, Dewey M. Smith, and Richard W. Tyson, Proceedings from the Ninth AFGL Scientific Balloon Symposium, October 20-22,1976,AFGLTR-76-0306, pp367-391.
2. + “A Description of the LACATE Balloon Experiment and Some Preliminary Results“, J.M.Russell, J.C.Gille, R.E.Davis, and P.L.Bailey, Proceedings from the Eighth AFGRL Scientific Balloon Symposium, September 30-October 3, 1974, AFCRL TR-74-0393, pp 477 – 493.

Laser Research and Development

1. + “Advanced Laser Earth Observing Capabilities“, James C. Barnes, John A. Costulis, Proceedings of the Space Technology & Applications International Forum, Jan 26 -30, 1997, Albuquerque, NM.
2. + “Solid State Laser Technology Development for NASA DIAL and Lidar Systems“, J.C. Barnes, Christyl Johnson, Elka Ertur, and R. E. Campbell, AIAA Space Technologies Conference, Sept 1995.
3.   “Tunable Mid Infrared Sources Using Second Order Nonlinearities“, N. P. Barnes, International J. of Nonlinear Optical Physics, 1, 639 – 672 (1992).
4. + “Solid State Lasers for the Mid Infrared Region“, N. P. Barnes and K. L. Schepler, SPIE, 1062 (1989).
5. + “Mid-Infrared Solid-State Lasers and Laser Materials“, N. P. Barnes, and C. E. Byvik, SPIE, 889 (1988).
6. + “Tunable Solid-State Lasers: An emerging Technology for Remote Sensing of Planetary Atmospheres“, N. P. Barnes and F. Allario, SPIE, 868 (1988).
7. + “Eye-Safe Solid-State Lasers for LIDAR Applications“, N. P. Barnes, SPIE, 663, 2 – 7 (1986).
8. + “Lanthanide Series and Transition Metal Solid-State Lasers: Meeting New Objectives with Solid State Lasers“, N. P. Barnes, SPIE (1985).
9. * “Solid State Laser Technology“, N. P. Barnes, V. J. Corocran, I. A. Crabbe, L. L. Jarper, R. W. Williams, and J. W. Wragg, IEEE J. Of Quantum electronics, QE-10, 195-201 (1974).
10. * “Diode Pumped Solid State Lasers“, N. P. Barnes, J. of Applied Physics, 44, 230 – 237 (1973).

Laser Theory

1. + “Energy Transfer using a Quantum Mechanical Model“, N. P. Barnes, E. D. Filer, C. A. Morrison, OSA Proceedings on Advanced Solid State Lasers, 15, 220 – 223 (1993).
2. * “Injection-Seeding I: Theory“, N. Barnes and J. Barnes, IEEE J. Quant. Elect., VOL. 29, No. 10, pp. 2670-2683, October 1993.
3. * “Injection-Seeding II: Ti:Al2O3 Experiment“, J. Barnes, N. Barnes, L. Wang, and W. Edwards, IEEE J. Quant. Elect., VOL. 29, No. 10, pp. 2684-2692, October 1993.
4. * “Controlled Retroreflection: A Technique for Understanding and Eliminating Parasitic Lasing“, Mark E. Storm, Journal of the Optical Society of America B, Vol. 9, No. 8, August 1992.
5. * “Loss of Gaussian Beams Through Off-Axis Circular Apertures“, N. P. Barnes and P. J. Walsh, Applied Optics, 27, 1230 – 1232 (1988).
6. * “Distributed Aperture Effects in Laser Rods with Negative Lenses“, N. P. Barnes and S. J. Scalise, Applied Optics, 17, 1537 – 1540, (1978).
7. * “Mode Locking Dynamics of Homogenously Broadened Lasers“, N. P. Barnes, J. of Applied Physics, 45, 1291 – 1297, (1974).

Lidar

1. + “Intercomparison of Lidar-Derived Temperatures during the MLO3NDSC Validation at Mauna Loa, HI, August, 1995“, T.J. McGee, M.R. Gross, U.N. Singh , I.S. McDermid, J. Barnes, and D. Hofmann, 18th International Laser Radar Conference, Berlin, Germany, July 22-26, 1996.
2.   “Lidar for Atmospheric Remote Sensing“, U. N. Singh, Chapter in Handbook of the Methods in Optical Metrology, ARTECH Publisher, London, 50 pp, 1996 (in print).
3.   “Lidar Measurements of Ozone Profiles at Lauder, N.Z., during ASHOE/MAESA“, T. J. McGee, M. R. Gross, U. N. Singh, P. Kimvilakani, A. Matthews, G. Bodekar, B. Connor, J. J. Tsou, M. Proffit, and J. Marigitan, J. Geophys. Res., April 1996 (submitted).
4.   “Stratospheric Temperature Measurements by Two Collocated NDSC Lidars during UARS Validation Campaign“, U.N.Singh, P. Keckhut, T.J. McGee, M.R. Gross, A. Hauchecorne, E. Fishbein, J. Waters, J. Gille, A. Roche and J. Russell III, J. Geophys. Res., 101, 10,287-10,298 (1996).
5. * “Temperature Measurements Made with a Combined Rayleigh-Mie/Raman Lidar“, M. R. Gross, T. J. McGee, R. A. Ferrare, U. N. Singh, and P. Kimvilakani, Appl. Opt., May 1996 (submitted).
6. + “Lidar Measurements of Aerosol, Ozone, and Temperature at Lauder, NZ, during the ASHOE/MAESA Campaigns“, T.J. McGee, U.N. Singh, M.R. Gross, et al., Airborne Southern Hemisphere Ozone Experiment/Measurements for Assessing the Effects of Stratospheric Aircraft (ASHOE/MAESA) Science Team Meeting, San Diego, CA, April 2-7, 1995.
7. + “Lidar Measurements at Lauder, New Zealand“, T.J. McGee, M.R. Gross, U.N. Singh, and P. Kimvilakani, Optical Remote Sensing of the Atmosphere, OSA Seventh Topical Meeting, Salt Lake City, Utah, February 5-9, 1995.
8. + “Raman-Shifting Techniques for Lidar Applications“, U.N. Singh, Invited paper, International Conference on LASER’93, Lake Tahoe, NV, December 6-9, 1993.
9. + “A New Raman DIAL Technique for Measuring Stratospheric Ozone in the Presence of Volcanic Aerosols“, U.N. Singh, T.J. McGee, M. Gross, W.S. Heaps, and R. Ferrare, 16th International Laser Radar Conf., Cambridge, MA, July 20-24, 1992.
10. + “Future technologies for Lidar/ DIAL remote sensing“, Frank Allario, Norman P. Barnes and Mark E. Storm, SPIE proceedings on Space Technologies, Orlando, Florida, March 1991.
11. + “Research on Stimulated Raman Scattering with Applications to Atmospheric Lidar“, Z. Chu, T.D. Wilkerson, and U.N. Singh, Technical Digest of Optical Remote Sensing of the Atmosphere, Williamsburg, VA, November 18-21, 1991.
12.   “Development of Eye-Safe Lidar for Aerosol Measurements“, U.N. Singh and T.D. Wilkerson, Technical Note BN 1114, University of Maryland, August 1990.
13. + “Lidar Measurements of High Clouds and the Upper Atmosphere“, A. Notari, U.N. Singh, B. Bloomer, and T.D. Wilkerson, IEEE Digest of International Geoscience and Remote Sensing Symposium (IGARSS ’90), College Park, MD, May 20 24, 1990.
14. + “Lidar Measurements of Optical Propagation Environment“, T.D. Wilkerson, U. N. Singh, A. Notari, and W.C. Braun, Proc. NATO EWP Panel Symposium on Atmospheric Propagation in the UV, Visible, IR and MM-Wave Region and Related System Aspects, Copenhagen, Denmark, October 9 13, 1989. Publication Ref: AGARD-CP 454, 27(1) 27(12), 1990.
15. + “Lidar Measurements of Thin Cirrus and the Clear Air Atmosphere“, U. N. Singh and T.D. Wilkerson, Proc. Test Technology Symposium III, Laurel, MD, March 19 21, 1990.
16. + “Lidar Measurements of the Troposphere and Middle Atmosphere“, A. Notari, Z. Chu, S. Yang, W.C. Braun, U.N. Singh, and T.D. Wilkerson, SPIE Proc. Nonlinear Optical Beam Manipulation and High Energy Beam Propagation through the Atmosphere (eds. R.A. Fisher and L.E. Wilson), 1060, 195 200 (1989).
17.   “Lidar Measurement of the Troposphere and Middle Atmosphere“, A. Notari, Z. Chu, S. Yang, W.C. Braun, U.N. Singh, and T.D. Wilkerson, Technical Note BN 1096, University of Maryland, March 1989.
18. + “Measurements of the Optical Propagation Environment by Means of Lidar“, T.D. Wilkerson, U.N. Singh, and W.C. Braun, Proc. Test Technology Symposium II, Silver Spring, MD, April 18 20, 1989.
19. + “Raman-Shifted Radiation for Lidar Applications“, U.N. Singh, Z. Chu, R. Mahon, and T.D. Wilkerson, Proc. Conf. on Laser and Electro-Optics (CLEO ’89), Baltimore, MD, p 362-363, April 24 28, 1989.
20. + “Optimization of a Raman-Shifted Dye Laser System for DIAL Applications“, U.N. Singh, Z. Chu, R. Mahon, and T.D. Wilkerson, Proc. 14th Internat. Laser Radar Conf., Innichen, San Candido, Italy, p 294 297, June 20 24, 1988.
21.   “Applications of Laser and Lidar Spectroscopy to Meteorological Remote Sensing“, T.D. Wilkerson, G.K. Schwemmer, K.J. Ritter, U.N. Singh, and R. Mahon, Laser Spectroscopy VIII (eds. W. Persson and S. Svanberg), Springer-Verlag, 352 354, New York (1987).
22. + “Raman-Shifted Dye Laser for DIAL Measurements of Atmospheric Temperature, Pressure, and Density“, U.N. Singh, R. Mahon, and T. D. Wilkerson, Proc. Laser and Optical Remote Sensing, OSA Topical Mtg., Cape Cod, MA, p 258 261, September 28-October 1, 1987.
23. + “On the Measurement of Atmospheric Density using DIAL in the O2 A-Band (770 nm)“, T.D. Wilkerson, G.K. Schwemmer, L.J. Cotnoir, U.N. Singh, Proc. 13th Internat. Laser Radar Conf. (NASA Conf. Publication 2431), Toronto, Canada, p 80 83, August 11 15, 1986.
24. + “Overview of Recent Developments in France for DIAL-Lidar Technique Applications“, C. Cahen, G.J Megie, P.H. Flamant, M. Bourdet, B. Grossmann, J. R. Pelon, U.N. Singh, J-L. Lesne, and G. Ancellet, Proc. First Intern. DIAL Data Collection and Analysis Workshop, Virginia Beach, VA, p 1 14, November 1985.

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Miscellaneous

1. *”Atmospheric Thermal Lensing In Laser Resonators“, N. P. Barnes, M. E. Thomas, G. J. Koch, and W. D. Marsh, IEEE J. Quant. Elect., 962-969 (1995).
2. + “A Database for Solid State Laser, Optical, and Nonlinear Materials“, P. L. Cross, E. D. Filer, N. P. Barnes, and M. W. Skolaut, Proceedings on Solid State lasers, 14 – 25 (1990).
3. + “Software System for Laser Design and Analysis“, P. L. Cross, N. P. Barnes, and E. D. Filer, Proceedings on Solid State Lasers, 1223, 2 – 13 (1990).
4. + “High Gain Nonlinear Interactions with a 1.73 µ Pump“, N. P. Barnes and K. E. Murray, OSA Proceedings on Tunable Solid State Lasers, 5, 319 – 324 (1989).
5. + “Nonlinear Optical Processes for the Mid-IR Region“, K. L. Schepler and N. P. Barnes, SPIE, 1062 (1989).
6. + “Laser Damage Threshold of Diamond Films“, S. Albin, F.K. Lakdawala, J.A. Williams, C.E Byvik, andA.M. Buoncristiani; Proceedings of SPIE on Optoelectronics and Lasers, 1988.
7. + “Dependence of Dye Laser Amplifier Gain on Wavelength of Probe Pulse“, J. Williams, D.D. Venable, and T. Pilot; Annual Meeting of the Optical Society of America, 1986.
8. *”Argon Arc Lamps“, N. P. Barnes and D. K. Remelius, Applied Optics, 24, 1947-1949 (1985).
9. + “Optical Studies on Hard Carbon Films“, C.L. Marquardt, T.R. Royt, M. Storm, W.R. Hunter, and R.T. Williams, American Physical Society Meeting, November 1983.
10.   “Electro-Optical Engineering Support“, T. Mantzouranis and M. Storm, Final NRL Report #SFA-83-0023, 1983.
11.   “Electro-Optical Technology Research“, M. Storm, T. Mantzouranis, and R. Lindle, Final Report #SFA-83-0043, 1983.
12. + “New Multi-Line IRCM Laser Source“, C.L. Marquardt, M.E. Storm and L. Esterowitz, 21st IRIS Symposium, 1982.
13. + “In-Flight Lightning Effects Measurements System“, NASA Lightning Effects Conference, Felix L. Pitts, Mitchel E. Thomas, Richard E. Campbell, et. al., NASA Lightning Effects Conference, May, 1981.
14.   “Liquid Nitrogen Cooled Laser Rod Holder Design“, D. J. Gettemy, N. P. Barnes, and J. E. Griggs, Rev. Sci. Instr., 51, 1194 – 1197 (1980).
15. + “In-Flight Lightning Characteristics Measurement System“, Felix L. Pitts, Richard E. Campbell, R. M. Thomas, and P. K. Zeapfel, FAA-FIT Workshop on Ground and Lightning Technology, Melbourne, FL, FAA-RD-79-6, March 1979.
16. *”Detection of Optical Pulses: the Effect of Atmospheric Scintillation“, R. W. McMillian and N. P. Barnes, ” Applied Optics, 15, 2501 – 2503, (1976).
17.   “Cyclotron Tests to Determine the Response of Solid State Detectors to Protons of Energies 50 to 160 MeV for Use in a Proton Spectrometer“, G. W. Grew, IEEE Transactions on Nuclear Science, Vol. NS-12, No. 1, February 1965..

Miscellaneous Lasers

1. + “Characterization of a Double Pulse Laser System“, J. A. Williams-Byrd, J. C. Barnes, N. P. Barnes, C. Banziger, W. Marsh, and C. Nichols, SPIE, 1627, 74 -77 (1992).
2. + “Evaluation of Stable and Unstable Resonator Configurations for Effecient Second Harmoinic Laser Systems“, J. A. Williams-Byrd and N. P. Barnes, SPIE, 1627, 281 – 285 (1992).
3. *”Characterization of a Diode Array for Use as an Optical Pumping Source for Space Laser Applications“, Christyl M. Chamblee, Pennsylvania State University Engineering Library, 1991.
4. + “Polymeric-Host Sulfohodamine-B Lasers: Doubled Nd:YAG Pumped“, D. J. Gettemy, R. E. Hermes, and N. P. Barnes, Proceedings on Advanced Solid State Lasers, 10, 390 – 392 (1991).
5. *”Room Temperature Dy:YLF Laser Operation at 4.34 µ“, N. P. Barnes and R. E. Allen, IEEE J. of Quantum Electronics, QE-27, 277 – 282 (1991).
6. + “Efficient Near-IR Light Source for Eye-Safe Lidar Applications“, U.N. Singh, Z. Chu, and T.D. Wilkerson, Proc. Optical Remote Sensing of the Atmosphere, OSA Topical Mtg., Incline Village, NV, p 247 250, February 12 15, 1990.
7. + “Optimization of SRS Techniques for Remote Sensing Applications“, U.N. Singh, Z. Chu, and T.D. Wilkerson, Proc. Conf. on Laser and Electro-Optics (CLEO ’90), Anaheim, CA, May 21 25, 1990.
8. + “A Self-Seeded SRS System for the Generation of 1.54 µm Eye-Safe Radiation“, Z. Chu, U.N. Singh, and T.D. Wilkerson, Opt. Commun., 75, 173 178 (1990).
9. + “Er:YLF laser Operation at 0.85 and 1.73 µm and the Possibility of Self Cascade Lasing“, N. P. Barnesand K. E. Murray, OSA Proceedings of Tunable Solid State Lasers, 5, 161 – 169 (1989).
10. + “Advantages of the 2.94 µm Wavelength for Medical Applications“, L. Esterowitz, C Hoffman, K Levin,M. Storm, R. Bonner, P. Smith, M. Leon, M.L.Wolbarsht, G.N. Foulksin Technical Digest, Conference on Lasers and Electro-Optics ( Optical Society of America, Wash. DC.,1986), p122, TuL1,1986.
11. + “Dependence of Dye Laser Amplifier Gain on Wavelength of Probe Pulse“, J. Williams, D.D. Venable, and T. Pilot; Annual Meeting of the Optical Society of America, 1986.
12. + “High Spectral Purity, Narrow Linewidth Laser Transmitter for DIAL Measurement“, U.N. Singh and P.H. Flamant, Proc. 13th Internat. Laser Radar Conf. (NASA Conf. Publication 2431), Toronto, Canada, p 76 79, August 11 15, 1986.
13. + “Linewidth Characteristics of Raman-Shifted Dye Laser Output at 720 nm and 940 nm“, B.E. Grossmann, U.N. Singh, N.S. Higdon, L.J. Cotnoir, T.D. Wilkerson, and E.V. Browell, Proc. 13th Internat. Laser Radar Conf. (NASA Conf. Publication 2431), Toronto, Canada, p 301-305, August 11 15, 1986.
14. + “Continuously Tunable Laser Source from 2.6-9.0 µm“, C.L. Marquardt, M.E. Storm, L. Esterowitz, IRIS meeting on active sensors, Johm Hopkins Applied Physics Laboratory, November 1986.
15. + “A Comparison of Erbium Mid-IR Laser and Short Wavelength UV Excimer Lasers for Medical Applications“, L. Esterowitz, C. Hoffman and M. Storm, International Conference on Lasers, November 1986, Orlando, Florida.
16. + “A Mid-IR, 2.94 micron, Surgical Laser with an Optical Fiber Delivery Systems“, M.L. Wolbarsht, L.Esterowitz, D.Tran, K. Levin and M. Storm, American Society for Lasers in Medicine, May 1986.
17. + “Corneal Surgery with an Er:YAG Laser at 2.94 microns“, M.L. Wolbarsht, G. Foulks, L. Esterowitz, D. tran, K.Levin, and M. Storm, American Society for Laser Medicine and Surgery, 6th Annual meeting, May 24-26,1986, Boston, Mass.
18. + “Angioplasty with a Laser and Fiber Optics at 2.94 µm“, L. Esterowitz, C.Hoffman, D. Tran, K.Levin, M. Storm, R. Bonner, P. Smith and M. Leon, OE-LASE conf., SPIE vol.605, pp32-36, 1986.
19. + “Raman Susceptibility of Liquid Nitrogen in the Mid-IR Spectral Region“, C.L. Marquardt, M.E. Stormand N.P. Barnes, Proceedings of First Int. Laser Sci.Conf., Editor W.C. Stwalley, No.146, p 297 November18-22,1986.
20. + “Mid-IR solid state laser with fiber optics as an ideal medical scalpel“, L. Esterowitz, C.A. Hoffman, K. Levin and M. Storm, Int. Conf on Lasers ’85, Dec 2-6, p 68-70,1985.
21. + “CW Laser Operation at 1.88 Microns in Tm:Er:YAG“, Mark E. Storm, L. Esterowitz and R. Allen, in Technical Digest, Conference on Lasers and Electro-Optics (Optical Society of America, Wash. DC.,1985), WJ3.
22. *”Double-Pulsed, Dual-Wavelength Dye Laser for High Altitude Aircraft Lidar System“, U.N. Singh, B. Grossmann, P.H. Flamant, and G. Megie, J. Opt. Soc. Am. A 3, 13, 103 104 (1985).
23.   “Compact, Low-Cost Cryogenic Laser Head“, R.C. Eckardt, M.E. Storm, A. Linz and C.L. Marquardt, Revi.Sci. Instrum. 55,12,1945, December 1984.
24. * “High efficiency mid-IR generation by Raman down conversion in liquid nitrogen“, C.L. Marquardt,M.E. Storm, I Schneider and L. EsterowitzJ. Appl. Phys.,54,10, 5645 ,1983.
25. + “Efficient Raman Down Conversion in the Mid-IR“, C.L. Marquardt, M.E. Storm, And L. Esterowitz, in Technical Digest, Conference on Lasers and Electro-Optics (Optical Society of America, Wash. DC.,1983), paper FG5.
26. * “Tunable Near Ultraviolet Laser System from a Frequency Doubled Alexandrite Laser“, N. P. Barnes, T. M. Johnson, and D. J. Gettemy, IEEE J. of Quantum Electronics, QE-19, 1437 – 1442 (1983).
27. + “New Multi-Line IRCM Laser Source“, C.L. Marquardt, M.E. Storm and L. Esterowitz, 21st IRIS Symposium, 1982.
28. + “Pulsed Laser CM to InSb PV Detectors used in 3-5 Micron Imaging Sensors“, C. Hoffman, C. Marquardt, F. Bartoli and M. Storm, 21st IRIS Symposium 1982.
29. + “Multi-Line mid-IR countermeasure laser“, C.L. Marquardt, M.E. Storm, and L. Esterowitz, Old Crows Meeting, San Diego, CA., 1982.

Multispectral Scanning and Imaging

1.   “Effects of Aerosols and Surface Shadowing on Bi-Directional Reflectance Measurements of Deserts“, David E. Bowker and Richard E. Davis, NASA TP -2756, September, 1987.
2.   “Spectral Reflectances of Natural Targets for Use in Remote Sensing Studies“, David E. Bowker,Richard E. Davis, David L. Myrick, Kathryn Stacy, and William T. Jones, NASA RP-1139, June,1985.
3.   “Study of Remote Sensor Spectral Responses and Data Processing Algorithms for Autonomous Feature Classification“, F.O. Huck, R.E. Davis, C. L Fales, R.M. Aherron, R. F. Arduini, and R.W. Samms, Optical Engineering, Vol.23, No.5, pp650-666, September- October,1984.
4.   “Estimation of Spectral Reflectance Signatures from Spectral Radiance Profiles“, D. E. Bowker, R.E. Davis, W.H.C. von Ofenheim, and D.L Myrick, Presented at the Seventeenth International Symposium on Remote Sensing of Environment, Ann Arbor, Michigan, May 9-13,1983.
5.   “Computational Modeling for the Study of Multispectral Sensor Systems and Concepts“, F.O.Huck. R.M. Aherron, R.F. Arduini, R.E. Davis, and S.K.Park, Optical Engineering, Vol.21, No.3, May/June, 1982, pp 519-527.
6.   “Earth Feature Identification for Onboard Multispectral Data Editing: Computational Experiments“, R. M. Aherron. R. F. Arduini, R.E. Davis, F.O. Huck, and S.K. Park, Presented at the conference on Optical Information for Aerospace Applications, August 18-18, 1981, Hampton, Virginia.(available as NASA CP-2207).
7.   “Computational Modeling for Smart Multispectral Sensor Design“, F.O. Huck, R. M. Aherron, R.F. Arduini, R.E. Davis, and S.K. Park,SPIE Paper 278-23,Presented at SPIE Conference on Electro-Optical Instrumentation for Resources Evaluation, April 21- 22, 1981, Washington,D.C. (In SPIE Vol.278, pp 83-101).
8.  “Multispectral Data Acquisition and Classification: Computer Modeling for Smart Sensor Design“, S.K.Park, R.E. Davis, F.O. Huck, and R.F. Arduini, AIAA Paper 80-1921-CP. Presented at AIAA Conference on Sensor Systems for the 80’s, December 2-4, 1980, Colorado Springs, Colorado.

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Nd Lasers

1. + “Flashlamp Pumped, Room Temperature, Nd:YAG Laser Operating at 0.946 Micrometers“, Norman P. Barnes, Keith E. Murray, Brian M. Walsh, Advanced Solid State Laser Conference, Jan 26-31, 1997, Orlando, FL.
2. + “Nd:LuLF, A New Nd Laser Material“, Norman P. Barnes, Keith E. Murray, Brian M. Walsh, Vida K. Castillo, Gregory J. Quaarles, Advanced Solid State Laser Conference, Jan 26-31, 1997, Orlando, FL.
3. +*”Compositionally Tuned Nd Lasers“, N. P. Barnes, E. B. Ertur, B. M. Walsh, and R. L. Hutcheson, Advanced Solid State Laser Conference, San Francisco CA (1996).
4. * “Diode Laser-Pumped 920 nm Neodymium-Doped Fiber Laser with 35 mW Output Power“, Anthony L. Cook and Herbert D. Hendricks, Submitted to IEEE Photonics Technology Letters, October 1996.
5. + “Diode Laser-Pumped 920 nm Neodymium-Doped Fiber Laser“, Anthony L. Cook and Herbert D. Hendricks, Submitted for presentation to Conference on Lasers and Electro-Optics, October 1996.
6. * “Nd Doped 940 nm Silica Double Clad Fiber Amplifier/Laser“, Herbert D. Hendricks and Anthony L. Cook, DDF Review 8 August 1996.
7. + “Self Quenching Of The Nd 4F3/2“, N. P. Barnes, E. D. Filer, and C. A. Morrison, CLEO Conference, Anaheim CA (1996).
8. +*”Self Quenching Of The Nd 4F3/2 Manifold“, N. P. Barnes, E. D. Filer, and C. A. Morrison, Proceedings of the Advanced Solid State Laser Conference, San Francisco CA (1996).
9. + “Flashlamp Pumped NdBaY₂F₈“, N. P. Barnes, K. E. Murray, A. Cassanho, K. M. Dinndorf, and H. P. Jenssen, OSA Proceedings on Advanced Solid State Lasers, 15, 24 – 27 (1993).
10. + “Diode Pumped Nd:LMA Laser“, N. Sims Jr., N. P. Barnes, D. Reichle Jr., and S. Sharpe, Proceedings on Advanced Solid State Laser Conference, 13, 197 – 201 (1992).
11. + “Optimization of Rod Diameter in Solid State Lasers Pumped with Multiple Laser Diode Arrays“, N. Sims Jr, C. M. Chamblee, N. P. Barnes, G. E. Lockard, and P. L. Cross, SPIE, 1627, 153 – 165 (1992).
12. + “Characterization of Nd:YAG Double Pulsed Laser“, J.A. Williams-Byrd, J.C. Barnes, N.P. Barnes, G.E. Lockard, A. Little, C. Banziger, W. Marsh and C. Nichols; LEOS 1991 Summer Topical Meetings on Spaceborn Photonics, Aerospace Applications of Lasers and Electro-Optics, 1991.
13. * “Absorption Efficiency of Six Lamp-Pumped Nd Laser Materials“, Patricia L. Cross, Norman P. Barnes, Milton W. Skolaut,Jr., and Mark E. Storm, Applied Optics, 29, 6, 791, 1990.
14. + “Development of a Nd:YAG laser for LITE“, Mark E. Storm and Norman P. Barnes, presented at the 15th International Laser Radar conference, July 23-27, 1990, Tomsk, USSR.
15. + “Optimization of Rod Diameter in Solid State Lasers Side Pumped with Multiple Laser Diode Arrays“,Newton Sims, Jr., Christyl M. Chamblee, Norman P. Barnes, George E. Lockard, Patricia L. Cross, SPIE #3.
16. * “Efficiency of Nd Laser Materials for Laser Diode Pumping“, Norman P. Barnes, Mark E. Storm,Patricia L. Cross, and Milton W. Skolaut, Jr., IEEE J.Q.E. 26, 3, 558-570, 1990.
17. * “Comparison of Nd 1.-6 and 1.33 µ Operation in Various Hosts“, N. P. Barnes, D. J. Gettemy, L. Esterowitz, and R. E. Allen. IEEE J. Quantum Electronics, QE – 23, 1434 – 1451 (1987).
18. + “Laser Performance, Thermal Focusing, amd Depolarization Effects in Nd:Cr:GSGG and Nd:YAG“, J. A. Williams-Byrd and N. P. Barnes, Proceedings on Solid State Lasers, 1223, 237 – 243 (1990).
19. “Maintenance and Alignment Manual for Quantel 481C Nd:YAG Laser“, U.N. Singh, B. Benson, and T.D. Wilkerson, Technical Note BN 1070, University of Maryland, October 1987.
20. * “Coherence Length of a Q-switched Nd:YAG Laser“, N. P. Barnes and I. A. Cabbe, J. of Applied Physics, 46, 4093 – 4095, (1975).

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Optical Parametric Amplifiers and Oscillators

1.   “Generation of 940 nm Pulsed Radiation through KD*P Optical Parametric Amplification of a CW Source“, P. L. Ponsardin, W. D. Marsh, D. A. Richter, W. J. Rodriguez, J. C. Barnes and E. V. Browell, Accepted for publication, ORSA 97.
2. * “Average Power Effects in Parametric Oscillators and Amplifiers“, N. P. Barnes and J. A. Williams-Byrd, J. of Optical Society of America B, 12, 124 – 131 (1995).
3. + “ZnGeP2 Parametric Amplifier“, N. P. Barnes. K. E. Murray, M. G. Jani, T. Pollak, and P. Schunemann, OSA Proceeding On Advanced Solid State Lasers, 24, 154-157 (1995).
4. + “Mid-Infrared Parametric Oscillator Tuned Via Pump Wavelength Tuning“, N. P. Barnes, K. E. Murray,M. G. Jani, and S. R. Harrell, OSA Proceedings on Advanced Solid State Lasers, 20, 454 – 457 (1994).
5. + “Injection Seeded Optical Parametric Oscillator“, N. P. Barnes, K. E. Murray, G. H. Watson, Proceedings on Advanced Solid State Laser Conference, 13, 356 – 360 (1992).
6. * “Parametric Amplification in AgGaSe₂“, N. P. Barnes, D. J. Gettemy, J. R. Heitanen, and R. A. Iannini, Applied Optics, 28 (1989).
7. + “Optical Parametric Oscillation in Commercially Produced AgGaSe2“, K.L. Scheplar, M.E. Storm, C.L.Marquardt, L. Esterowitz, Topical Meeting on Tunable Solid State Lasers Technical Digest Series, 1987 vol.20, (Optical Society of America, Wash., D.C.,1987), WF5, 233-236.
8. * “Broadly Tunable Optical Parametric Oscillator using AgGaSe2“, R.C. Eckardt, Y.T. Fan, R.L. Byer, C.L. Marquardt, M.E. Storm, and L Esterowitz, Appl. Phys. Lett. 49,11,15, 608-610, 1986.
9. + “Tunable Infrared OPO using Silver Gallium Selenide“, R.C. Eckardt, Y.T. Fan, R.L. Byer, M.E. Storm, C.L. Marquardt, and L. Esterowitz, in Technical Digest, Conference on Lasers and Electro-Optics (Optical Society of America, Wash. DC.,1986), p 52, MH2,1986.
10. * “Parametric Generation Processes: Spectral Bandwidth and Acceptance Angles“, N. P. Barnes and V. J. Corcoran, Applied Optics, 15, 696 – 699 (1976).

Ozone

1. + “Comparison of Ozone Lidar Measurements with Chemical Cell Sonde Measurements“,T.J. McGee, M.R. Gross, U.N. Singh, A. Matthews, D. Hofmann, S. Godin, W. Kohmyr, and R. Barnes, XVIII Quadrennial Ozone Symposium-96, L’Aquila, Italy, September 12-21, 1996.
2. + “Results from the 1995 NDSC Stratospheric Ozone Profile Intercomparison (MLO3)“, R.D. McPeters, D.J. Hofmann, M. Clark, L. Froidevaux, M.R. Gross, B. Johnson, G. Koenig, I.S. McDermid, T.J. McGee, F. Murcray, S. Oltmans, A. Parish, U.N. Singh, J.J. Tsou, J. Zawodny, XVIII Quadrennial Ozone Symposium-96, L’Aquila, Italy, September 12-21, 1996.
3. + “Measurements of Ozone Profiles at Southern Mid-Latitudes“, T.J. McGee, U.N. Singh, M. Gross, P. Kimvilakani, and A. Matthews, 17th International Laser Radar Conference, Sendai, Japan, July 25-29, 1994.
4.   “Raman Lidar Measurements of Stratospheric Ozone in the Presence of Volcanic Aerosols“, T.J. McGee, M.R. Gross, R.A. Ferrare, W.P. Heaps, and U.N. Singh, Geophysical Research Letters, 20, 955-958 (1993).
5. + “Southern Hemisphere Lidar Measurements of Ozone“, T.J. McGee, U.N. Singh, and M. Gross, International Conference on LASER’93, Lake Tahoe, NV, December 6-9, 1993.
6. + “A Modified Stratospheric Ozone Lidar“, T.J. McGee, J.J. Butler, M. Gross, U.N. Singh, and J. Cavanaugh, Technical Digest of Optical Remote Sensing of the Atmosphere, Williamsburg, VA, November 18-21, 1991.

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Spectroscopy and Materials Characterization

1. + “Radiative and nonradiative transitions of the rare-earth ions Tm(3+) and Ho(3+) in Y₃Al₅O₁₂ and LiYF₄“, B. Walsh, G. Armagan, B. Dibartolo, E. Modlin, 1995, CASIHC A02/AF A02 in its Second Annual Research Center for Optical Physics (RCOP) Forum, p99-108.
2.   “The Characterization of the Radiative Energy Transfer Process among Ho³⁺ Ions in Y₃Al₅O₁₂“, T. L. Lazarus, Ph. D. Thesis, Department of Physics, The College of William and Mary, Williamsburg, Va, 1995.
3.   “Modeling of Radiative Energy Transfer Dynamics“, T. L. Lazarus,. G. Armagan, N. P. Barnes, Journal de Physique IV, Colloque C4, Supplement au Joural de Physique III,4, 1994.
4. * “Variation of the Verdet Constant with Temperature of Terbium Gallium Garnet“, N. P. Barnes and L. B. Petway, J. Optical Society of America B, 9, 1912 – 1915 (1992).
5. + “Raman-shifting for Near-infrared Spectroscopy and Lidar Applications“, Invited Paper, T.D. Wilkerson and U.N. Singh, Seventh Interdisciplinary Laser Science Conf., Monterey, CA, Sept. 22-26, 1991.
6. + “Donor and Acceptor Kinetics of Excited Trivalent Rare Earth Ions in Yttrium Aluminum Oxides“, G. Armagan, W. C. Edwards, J. J. Swetits, A. T. Inge, M. A. Buonchristiani, B. DiBartolo, Presented at the International Conference on Luminescence, Lisbon, Portugal, July 16-20, 1990.
7. + “Optical Properties of High Clouds“, A. Notari, U.N. Singh, T.D. Wilkerson, and W.C. Braun, Proc. Optical Remote Sensing of the Atmosphere, OSA Topical Mtg., Incline Village, NV, p 210 211, February 12 15, 1990.
8. + “Spectral Features of a New Crystal Cr:KTP and its Potential Application for Self-Frequency Doubling“, N. Y. Chou, E. B. Koker, N. P. Barnes, and G. M. Loiacono, OSA Proceedings on Advanced Solid State Lasers, 6, 322 – 328 (1990).
9. + “Spectroscopic Characterization of the Dynamical Processes for Tm:Ho:YAG lasers“, G. Armagan, M. A. Buonchristiani, B. DiBartolo, W. C. Edwards, and A. T. Inge, Presented at the Topical Meeting on Advanced Solid-State Lasers, Salt Lake City, Utah, March 5-7, 1990, and published in the Optical Society of America (OSA) Proceedings of Advanced Solid-State Lasers.
10. + “Spectroscopic Characterization of Dynamical Processes for Tm:Ho:YAG lasers“, G. Armagan, M. A. Buonchristiani, B. DiBartolo, W. C. Edwards, and A. T. Inge, Presented at the 5th Topical Meeting on Advanced Solid-State Lasers, Salt Lake City, Utah, March 5-7, 1990.
11. + “Rare Earth Substitution Studies of the High Temperature Superconductor YBa₂Cu₃O_x“, W. Edwards, R. Harvey, A. Plum, S. Yang, Presented at the National Undergraduate Research Conference, University of North Carolina, Asheville, April 1989.
12. * “Some Optical Properties of KTP, LiIO₃, and LiNbO₃“, D. J. Gettemy, W. C. Harker, G. Lindholm, and N. P. Barnes, IEEE J. of Quantum Electronics, 24, 2231-2237 (1988).
13. + “Absorption and Emission Spectra of Transition Metal Doped Titanates“, C. E. Byvik, A. M. Buonchristiani, and J. C. Barnes, Presented at the 167th Meeting of the Electrochemical Society, May 12-17, 1985, Toronto, Canada.
14.   “Fluorescence Branching Ratios in Nitric Oxide: Emission from the A ²⁺ (v’=1) State“, J. F. Burris, T. J. McGee, and J. C. Barnes, J. Quant. Spectrosc. Radiat. Transfer, vol 34, no.1, pp. 81-84, February 1985.
15. * “Spectroscopic Data for Temperature and Water Vapor DIAL Monitoring“, B. Grossmann, U.N. Singh, and C. Cahen, J. Opt. Soc. Am. A 3, 13, 103 (1985).
16. + “Temperature Dependence of the Fluorescence Lineshape and Fluorescence Lifetime of Titanium-Doped Sapphire“, C. E. Byvik, A. M. Buonchristiani, and J. C. Barnes, Presented at the Topical Meeting on Tunable Solid State Lasers of the Optical Society of America, May 16-17, 1985, Arlington, VA.
17. + “Temperature Dependence of the Fluorescence Lineshape and Fluorescence Lifetime of Titanium-Doped Sapphire“, C. E. Byvik, A. M. Buonchristiani, and J. C. Barnes, Presented at the International School of Atomic and Molecular Spectroscopy, June 16-30, 1985, Erice, Italy.
18.   “Time Resolved Fluorescence Studies of the A ²⁺ (v’ = 1 ) State of Nitric Oxide: Lifetimes and Collisional Deactivation Rates,” J. F. Burris, T. J. McGee, and J. C. Barnes, Chem. Phys. Lett., vol. 121, no. 4-5, pp. 71-376, November 15, 1985.
19.   “Variation of the Refractive Index with Temperature and the Tuning Rate for KDP Isomorphs“, N. P. Barnes, D. J. Gettemy, and R. S. Adhav, J. Optical Society of America, 72, 895 – 898 (1982).
20. * “Temperature Variation of the Refractive Indices of Yttrium Lithium Fluoride“, N. P. Barnes and D. J. Gettemy, J. of Optical Society of America, 70, 1244 – 1247 (1980).
21. * “Absorption Coefficients and the Temperature Variation of the Refractive Index Difference of Nonlinear Crystals“, N. P. Barnes, R. C. Eckhardt, D. J. Gettemy, and L. B. Edgett, IEEE J. of Quantum Electonics, QE-15, 1074 – 1076 (1979).
22. * “Temperature Dependent Sellmeier Coefficients and Nonlinear Optics Average Power Limit for Germanium“, N. P. Barnes and M. S. Piltch, J. Optical Society, 69, 178-180, (1979).
23. * “Temperature Dependent Sellmeier Coefficients and Coherence Length for Cadmium Telluride“, N. P. Barnes and M. S. Piltch, J. Optical Society of America, 67, 628 – 629 (1977).

Systems Engineering

1.   “Accuracy and Precision of Cryogenic Limb Array Etalon Spectrometer (CLAES) Temperature Retrievals“, J.C. Gille, P.L. Bailey, S.T. Massie, L.V. Lyjak, D.P. Edwards, A.E. Roche, J.B. Kumer, J.L. Mergenthaler, M.R. Gross, A. Hauchecorne, P. Keckhut, T.J. McGee, I.S. McDermid, A.J. Miller, and U.N. Singh, J. Geophys. Res., 101, 9,583-9,602 (1996).
2. + “A Novel Acousto-optic Modulation Technique for Na Wind/Temperature Lidars“, J.R.Yu, W.Yang, and C.S.Gardner, Proceedings of 18 th International laser radar conference, Berlin 22-26, July 1996.
3.   “An Improved Stratospheric Ozone Lidar“, T.J. McGee, M.R. Gross, U.N. Singh, J.J. Butler, and P.E. Kimvilakani, Opt. Eng., 34, 1421-1430 (1995).
4. * “Ho:Tm:YLF Laser Amplifier Performance“, N. P. Barnes, W. J. Rodrigues, and B. M. Walsh, J. Optical Society of America, (1996).
5. + “Near-infrared Laser Techniques for Atmospheric Sounding“, T.D. Wilkerson, U.N. Singh, and J.A. McKay, ICO Topical Meeting on Atmospheric Volume and Surface Scattering and Propagation, Florence, Italy, Aug. 27-30, 1991.
6. * “Optimization of a Raman-Shifted Dye Laser System for DIAL Applications“, U. N. Singh, Z. Chu, R. Mahon, and T.D. Wilkerson, Appl. Opt., 29, 1730 1735 (1990).
7. * “Remote Sensing Using Solid-State Lasers, Progress, and Projections“, N. P. Barnes, Optical Remote Sensing of the Atmosphere Technical Digest, 235 – 239, Optical Society of America, Washington DC (1990).
8.   “Two-Frequency Technique for Mesospheric Na Temperature Measurements“, C.Y.She, H.Latifi,J.R.Yu, R.J.Alvarez II, R.E.Bills, and C.S.Gardner, Geophys. Res. Lett. 17, 929-932 (1990).
9. * “A Conceptual Design Study for the EOS Lidar Atmospheric Sounder and Altimeter Facility“, L. E. Mauldin, N. P. Barnes, E. V. Browell, and M. P. McCormick, SPIE, 972 (1988).
10.   “Radiometric Responsivity Determination for Feature Identification and Location Experiment (FILE) Flown on Space Shuttle Mission 41-G“, R. Gale Wilson, Richard E. Davis, Robert F. Wright, Jr., W. E. Sivertson, Jr., and Gordon F. Bullock, NASA TM-89017, December,1986.

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Ti Sapphire

1. + “NASA Lidar Atmospheric Sensing Experiment’s Ti:Sapphire Tunable Laser System“, J. C. Barnes, W. C. Edwards, L. B. Petway, L. G. Wang, Presented at the Optical Remote Sensing of the Atmosphere, March 8-12, 1993.
2. + “An Injection Seeded Titanium Sapphire Laser for Differential Absorption LIDAR“, J. Barnes, N. Barnes, and W. Edwards, Proceedings of the International Conference on LASERS, June 1991.
3. + “Injection Seeding of Ti:Al₂O₃ Unstable Resonator, Theory and Experiment“, J. Barnes, N. Barnes, L. Wang, W. Edwards, W. Cheng, R. Hess, G. Lockard, and P. Ponsardin, OSA Proceedings on Advanced Solid State Lasers, vol. 10, pp 136-141, March 1991, presented to the Advanced Solid State Laser Conference, Hilton Head, S. C., March 18, 1991.
4.   “Measurement of Amplified Spontaneous Emission of a Ti:Al₂O₃ Amplifier and a Ti:Al₂O₃ Power Oscillator“, J. Barnes, N. Barnes, G. Lockard, P. Ponsardin, W. Edwards, and P. Cross, IGARSS ’91, VOL. III, IEEE 91ch2971-0, p. 1341, June 1991.
5. + “High Energy, Line-Narrowed, Titanium Sapphire Transmitter Development for Lidar Remote Sensing“, J. Barnes, N. Barnes, P. Moulton, and G. Rines, Proceedings of the 10th Annual International Geoscience and Remote Sensing Symposium, The University of Maryland, College Park, Maryland, May 20-24, 1990.
6. + “An Injection Seeded Titanium Sapphire Laser for Differential Absorption LIDAR“, J. Barnes, N. Barnes, and W. Edwards, presented at LASERS ’90, San Diego, CA. , December 12, 1990.
7. + “Recent Developments In Ti:Sapphire for Remote Sensing Applications“, J. Barnes, Lasers ’89 Invited Paper, New Orleans, Louisiana, December 1990.
8. * “Recent Developments In Ti:Sapphire for Remote Sensing Applications“, J. Barnes, Proceeds of Lasers ’89, Soc. Opt. and Quant. Elect., July 1990.
9. + “Amplified Spontaneous Emission Measurement of Line-Narrowed, Tunable, Ti:Al₂O₃ Amplifier Using Rubidium Absorption“, J. Barnes, N. Barnes, and G. Lockard, OSA Proceedings on Tunable Solid State Lasers, vol. 5, July 1989, presented at the Optical Society of America Tunable Solid State Laser Conference, Cape Cod, Massachusetts, May 1989.
10. + “Amplifier Performance of Ti:Al₂O₃“, J. Barnes and N. Barnes, Proceedings of the 15th Day of Scientific Lectures and 11th Annual Meeting of the National Society of Black Physicists, Lincoln, Pennsylvania, April 1988.
11. * “Demonstration of frequency control and CW diode laser injection control of a titantium-doped sapphire ring laser with no internal optical elements“, C. Bair, P. Brockman, R. Hess, E. Modlin, E. Paa, Journal of Quantum Electronics, vol 24, June 1988, p. 1045-1048.
12. * “Master Oscillator Power Amplifier Performance of Ti:Al₂O₃“, J. Barnes, N. Barnes, and G. Miller, IEEE J. Quant. Elect., vol. 24, No. 6, June 1988.
13. + “Master Oscillator Power Amplifier Performance of Ti:Al₂O₃“, J. Barnes, N. Barnes, and G. Miller, Presented at the Optical Society of America Tunable Solid State Laser Conference, Williamsburg, Virginia, April 1988.
14. + “A Self-Injection Locked, Q-switched, Line-Narrowed Ti:Al₂O₃ Laser“, N. Barnes, J. Williams, J. Barnes, and G. Lockard, Presented at the Optical Society of America Tunable Solid State Laser Conference, Williamsburg, Virginia April 1988.
15. * “A Self-Injection Locked, Q-switched, Line-Narrowed Ti:Al₂O₃ Laser“, N. Barnes, J. Williams, J. Barnes, G. Lockard, IEEE J. Quant. Elect., vol. 24, No. 6, June 1988.
16.   “Amplified and Line Narrowed Performance of Ti:Al₂O₃“, N. P. Barnes and D. K. Remlius, Tunable Solid State Laser II Springer Series in Optical Sciences, 52, Springer-Verlag (1986).
17.   “Pulsed Injection Control of Titanium-Doped Sapphire“, P. Brockman, C. Bair, J. Barnes, R. Hess, and E. Browell, Opt. Lett., vol. 11, No. 11, pp. 712 -14, November 1986.
18. + “Ti:Al₂O₃ Laser Pumped by a Frequency Doubled Nd:YAG Laser“, N. P. Barnes, and D. K. Remelius, Tunable Solid State Lasers for Remote Sensing Springer Series in Optical Sciences, 51, Springer-Verlag (1985).

2 Micron Lasers

1. + “Diode-Pumped 2-µ Solid-State Lidar Transmitter for Wind Measurements“, U. N. Singh, J. A. Williams-Byrd, N. Barnes, J. Yu, G. Lockard, and E. Modlin, Conf. on Lidar Atmospheric Monitoring – ENVIROSENSE 97, Munich, Germany, June 16-20, 1997.
2. + “Ho:Tm:Er:LuAG and Two Wavelength Oscillation“, Keith E. Murray , Norman P. Barnes, Brian M. Walsh, Ralph E. Hutcheson, Advanced Solid State Laser Conference, Jan 26-31, 1997, Orlando, FL.
3. + “Room-temperature, diode-pumped Ho:Tm:YLF laser amplifiers generating 700 mJ at 2-µ“, J. A. Williams-Byrd, U. N. Singh, N. Barnes, G. Lockard, E. Modlin, and J. Yu, Conf. on Advanced Solid-State Lasers-Twelfth Topical Meeting, Optical Society of America, Orlando, Florida, January 27-29, 1997.
4. + “Room-temperature, diode-pumped Ho:Tm:YLF laser amplifiers generating 700 mJ at 2-µ“, J. Williams-Byrd, U. Singh, N. Barnes, G. Lockard, E. Modlin, J. Yu, submitted to Advanced Solid State Lasers – Twelth Topical Meeting.
5. * “Ho:Tm Lasers I: Theoretical“, N. P. Barnes, E. D. Filer, C. A. Morrison, and C. J. Lee, IEEE J. Quant. Elect. QE-32 92-103 (1996).
6. * “Ho:Tm Lasers II: Experiments“, C. J. Lee, G. Han, and N. P. Barnes, IEEE J. Quant. Elect. QE-32 104-111 (1996).
7. + “Modeling And Performance Of 2.0 µ Lasers, Projections For Remote Wind Sensing“, N. P. Barnes,W. J. Rodriguez, and B. M. Walsh, International Laser Radar Conference, Berlin Germany, (1996).
8.   “A Review of Tuning and Performance of Ho Lasers“, Norman P. Barnes, chapter in the book Research Signposts, published by Trivandrum, India, submitted Nov., 1996.
9. * “Room Temperature Lasing Of End Pumped Ho:Lu₃Al₅O₁₂“, D. Hart, M. Jani, and N. P. Barnes, Opt. Lett. 21 728-730 (1996).
10. + “Diode-Pumped Ho:Tm:LuLiF₄ Laser At Room Temperature“, M. G. Jani, N. P. Barnes, K. E. Murray, G. E. Lockard, E. D. Filer and G. J. Quarles, CLEO Conference, Baltimore, MD (1995).
11. + “Diode Pumped, Long Pulse Ho:Tm:YLiF₄ Laser At 10 Hz“, M. G. Jani, N. P. Barnes, K. E. Murray, and G. E. Lockard, OSA Proceeding On Advanced Solid State Lasers, 24, 362-365 (1995).
12. * “Diode Pumped Long Pulse Length Ho:Tm:YLiF₄ Laser At 10 Hz“, M. G. Jani, F. L. Naranjo, N. P. Barnes, K. E. Murray, and G. E. Lockard, Opt. Lett. 872-874 (1995).
13. * “Diode Pumped, Room Temperature, Tm:LuAG Laser“, N. P. Barnes, M. G. Jani, and R. L. Hutcheson, Appl. Opt. 34 4290-4294 (1995).
14. + “Flashlamp Pumped Ho:Tm:Cr:LuAG Laser“, N. P. Barnes, K. E. Murray, M. G. Jani, and M. R. Kokta, OSA Proceeding On Advanced Solid State Lasers, 24, 352-357 (1995).
15. +*”Flashlamp Pumped Room Temperature Ho:Tm:LuAG Laser“, K. E. Murray, N. P. Barnes, M. G. Jani, and R. L Hutcheson, Proceedings Of The Photonics West Conference, San Jose, CA, 13-16, (1995).
16. +*”Gain Measurements In Ho:Tm:YLiF₄“, M. E. Storm, and N. P. Barnes, Proceedings Of The Photonics West Conference, San Jose, CA, 10-12, (1995).
17. + “Gain Measurements in Ho:Tm:YLF” Waldo Rodreguez, Mark Storm, Norm Barnes in Advanced Solid-State Lasers, Technical Digest, 1995 (Optical Society of America, Washington,DC,1994).
18. + “Gain Measurements in Ho:Tm:YLF“, Waldo Rodreguez, Mark Storm, Norm Barnes, OE-Lase, January, 1995, Los Angeles, CA.
19. + “Nonradiative-Decay-Rate Dependence Of The Performance Of Ho:Tm Lasers“, W. J. Rodriguez, andN. P. Barnes, CLEO Conference, Baltimore, MD (1995).
20. +*”Physics Of Quasi Four Level Lasers“, N. P. Barnes, Proceedings Of The Photonics West Conference, San Jose, CA, 2-9, (1995).
21. * “Room-Temperature lasing of end-pumped Ho:Lu₃Al₅O₁₂“, N. P. Barnes, M. Jani, and D. W. Hart, Optics Letters, 12/11/95.
22. + “Small Signal Gain Of Ho:Tm:YLiF4 At High Pump Fluence“, W. J. Rodriguez, M. E. Storm, and N. P. Barnes, OSA Proceeding On Advanced Solid State Lasers, 24, 392-395 (1995).
23. + “Spectroscopy And Development Of Solid State Lasers“, N. P. Barnes, E. D. Filer, C. A. Morrison, W. J. Rodriguez, and B. A. Walsh, NATO Workshop On Collective Excitation Of Solid State, Erice, Italy (1995).
24. + “A 2-Micron Power Oscillator For A High Pulse Energy Doppler Lidar Transmitter“, M. G. Jani, N. P. Barnes, and K. E. Murray, Coherent Laser Radar Conference, Keystone, CO (1995).
25. + “Diode Pumped Ho:Tm:Lu₃Al₅O₁₂ Room Temperature Laser,” M. G. Jani, N. P. Barnes, K. E. Murray, and R. L. Hutchenson, OSA Proceedings on Advanced Solid State Lasers, 20, 109 – 111 (1994).
26. * “Diode Pumped Ho:Ym:YLF Laser Pumping an AgGaSe₂ Parametric Oscillator“, N. P. Barnes, K. E. Murray, M. G. Jani, and S. R. Harrell, J. of Optical Society of America B, 11, 2422 – 2426 (1994).
27. + “Promotion of Single-mode Operation in a 2 Micron Microchip Lasers by Superfocusing“, C.T. Meneely, N.P. Barnes, M. Petros, and M.E. Storm, in Advanced Solid-State Lasers, Technical Digest, 1994 (Optical Society of America, Washington,DC,1994), pp357-359.
28. + “Alexandrite Laser Pumped Ho:Tm:YLF Laser Performance“, C. J. Lee, G. Hon, C. H. Bair, N. P. Barnes, P. Brockman, and R. Hess, OSA Proceedings on Advanced Solid State Lasers, 15, 459 -462 (1993).
29. + “Diode-pumped Single-Frequency Ho:Tm:YLF in a monolithic crystal“, John P. Deyst, G.J. Koch, andM.E.Storm, Proceedings from the 1993 OSA Advanced Solid State Lasers Topical Meeting, New Orleans, LA, Febuary, 1993. paper AWA4.
30. * “Holmium YLF Amplifier Performance and the Prospects for Multi-Joule Energies Using Diode-Laser Pumping“, Mark E. Storm, IEEE Journal of Quantum Electronics, vol 29, no. 2, pp.440-451,1993.
31. + “Laser Operation of 1.76 um Pumped Ho:YmP:LUAG“, W. J. Rodriguez, N. P. Barnes, E. D. Filer, and F. L. Naranjo, OSA Proceedings on Advanced solid State Lasers, 15, 459 – 462 (1993).
32. * “Long-pulse-length 2-µ diode-pumped YLiF₄ laser“, Mahendra G. Jani, Norman P. Barnes, Keith E. Murray, and George E. Lockard, Optics Letters, vol 18, no 19, Oct. 1, 1993.
33. + “Long Pulselength Two Micrometer Lasers for LAWS Application“, M. G. Jani, N. P. Barnes, and K. E. Murray, OSA Proceedings on Advanced Solid State Lasers, 15, 424 – 426 (1993).
34. * “Single-frequency lasing of monolithic Ho,Tm:YLF“, G. J. Koch, J.P. Deyst and M. E. Storm, Opt. Lett., vol. 18, no. 15, 1235,1993.
35. * “Spectroscopic and Lasing Properties of Ho:Tm:LuAG“, N. P. Barnes, E. D. Filer, F. L. Naranjo, W. J. Rodriguez, and M. R. Kokta, Optics Letters, 18, 708 – 710 (1993).
36. + “Spectroscopy and Lasing in Ho:Tm:Lu₃Al₅ O₁₂“, E. D. Filer, N. P. Barnes, F. L. Naranjo, and M. R. Kokta, OSA Proceedings on Advanced Solid State Lasers, 15, 411 – 414 (1993).
37. + “High gain amplification in holmium doped yttrium lithium fluoride (YLF)“, Mark E. Storm and John P. Deyst, Proceedings from the 1992 OSA Advanced Solid State Lasers Topical Meeting, Santa Fe, NM, Feb.17-19, 1992, Paper MD-3.
38.   “Gain and Energy Storage in Holmium YLF“, Mark E. Storm and John P. Deyst, IEEE Trans. Phot. Tech. Lett., 3, 11, 982-985, 1991.
39. + “Theoretical Temperature Dependent Branching Ratios and Laser Thresholds of the ³F₄ to ³H₆ Level of Tm ³⁺ in Ten Garnets“, E. D. Filer, N. P. Barnes, and C. A. Morrison, Proceedings of Advanced solid State Laser Conference, 10, 189 – 200 (1991).
40. + “2-micron lasers for coherent lidar“, Mark E. Storm, Proceedings from the Topical Meeting on Spaceborne Photonics: Aerospace Applications of Lasers and Electro-Optics, IEEE /LEOS, July 22-24, 1991.
41.   “Coherent 2-micron sources burst into wind shear detection“, Mark E. Storm, Laser Focus World Magazine, Pennwell Publishing Co., vol.27, no.4, April 1991.
42. + “Spectral Performance of monolithic Holmium and Thulium Lasers“, Mark E. Storm, Technical Digest on Advanced Solid State Lasers, Optical Society of America, Hilton Head South Carolina, March, 1991.
43. + “Design Considerations for the LITE Laser Transmitter“, Mark E. Storm and Norman P. Barnespresented at the 10th International Geoscience and Remote Sensing Symposium [IGARSS’90], sponsored be IEEE, College Park,Md., May 1990.
44. + “Experiments and Theory for a Tm:Ho:YAG Laser End Pumped by a Cr:GSAG Laser“, K. H. Kim, Y. S. Choi, R. V. Hess, C. H. Bair, P. Brockman, N. P. Barnes, G. W. Henderson, and M. Kokta, OSA proceedings on Advanced Solid State Lasers, 6, 155 – 161 (1990).
45. + “LITE Laser Design and Architecture“, Mark E. Storm and Norman P. Barnes, Digest of Topical Meeting on Optical Remote Sensing of the Atmosphere 1990 (Optical Society of America, Wash. D.C. 1990), vol. 4, pp138-140, 1990.
46. * “Performance of Ho:YAG as a Function of Temperature“, N. P. Barnes and D. J. Gettemy, Applied Optics, 29, 404 – 409 (1990).
47. + “Single-Mode Lasing of 2 Micron Lasers for Coherent Applications“, Mark E. Storm and Wayne W. Rohrbach, 10th International Geoscience and Remote Sensing Symposium [IGARSS’90], sponsored be IEEE, College Park,Md., May 1990.
48. + “Single-Mode Lasing of Ho:Tm:YAG at 2.091 Microns in a Monolithic Crystal“, Mark E. Storm, Grady J. Koch and Wayne W. Rohrbach, OSA Proceeding on Advanced Solid State Lasers, Optical Society of America,Wash. D.C.1991), vol. 6, p140-143, Utah, March 5-7,1990.
49. + “Status of 2-Micron Laser Technology Program“, Mark E. Storm, presented to the Third Combined Manufacturers’ and Technologists’ Airborne Wind Shear Review Meeting, Hampton, Va., Oct. 17,1990.
50. + “Theoretical Branching Ratios for the ⁵I₇ to ⁵I₈ Levels in Ho³⁺ in the Garnets A₃B₂C₃O₁₂“, E. D. Filer, C. A. Morrison, G. A. Turner, and N. P. Barnes, OSA Proceedings on Advanced Solid State Lasers, 6, 354 – 370 (1990).
51. + “Ho:Tm:Cr:YAG and Ho:Tm:Cr:YAG Laser Performance at Intermediate Temperatures“, N. P. Barnes,D. J. Gettemy, P. L. Cross, and M. R. Kokta, OSA Proceedings on tunable Solid State Lasers, 5, 215 – 221 (1989).
52. * “Single-Longitudinal-Mode Lasing of Ho:TM:YAG at 2.091 Microns“, Mark E. Storm and Wayne W. Rohrbach, Applied Optics, 28, 23, 4965, 1989.
53. * “Thulium YAG Laser Operation at 2.01 microns“, Mark E. Storm, Donald J. Gettemy, Norman P. Barnes, P. L. Cross and Milan R.Kokta, Applied Optics, 28, 3, 408,1989.
54. * “Laser Characteristics of Q-Switched Ho:Tm:Cr:YAG“, Mark E. Storm, Applied Optics, 27, 20, 4170,1988.
55. + “2-micron Room-Temperature Laser operation of Cr:Tm:Ho:YAG“, M. Storm, L. Esterowitz and M. Kokta, in Technical Digest, Conference on Lasers and Electro-Optics (Optical Society of America, Wash. DC.,1987), paper FP5.
56. + “Diode Pumped 2 micron Holmium Laser“, R. Allen, L. Esterowitz, L. Goldberg, J. Weller, and M. Storm, in Technical Digest, Conference on Lasers and Electro-Optics (Optical Society of America, Wash. DC.,1986), p340, FC1, 1986.
57.   “Diode Pumped 2 micron Holmium Laser“, R. Allen, L. Esterowitz, L. Goldberg, J.F. Weller, and M. Storm, Electron. Lett.,22,1,949,1986.
58. + “Diode Pumped 2-micron Holmium Laser“, R. Allen, L. Esterowitz, L. Goldberg, J. Weller, and M. Storm, Topical Meeting on Tunable Solid State Lasers, 86: 9 (Optical Society of America, Wash. D.C.,1986) p144, FB2-1.
59. * “Pulsed Ho:YAG Oscillator and Amplifier“, N. P. Barnes and D. J. Gettemy, IEEE J. of Quantum Electronics, QE-17, 1303 – 1308 (1981).
60. + “TEM 00 Mode Ho:YLF Laser“, D. J. Gettemy, N. J. Levinos and J. E. Griggs, SPIE, 190, 297-304 (1979).

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U

UARS

1. + “UARS Ozone and Temperature Validation by GSFC Lidar during UARS Correlative Measurement Campaigns (1992-1995)“, U.N. Singh, T.J. McGee, and M.R. Gross, 18 th International Laser Radar Conference, Berlin, Germany, July 22-26, 1996.
2.   “Validation of UARS MLS Temperature and Pressure Measurements“, E.F. Fishbein, R.E. Cofield, L. Froidevaux, R.F. Jarnot, T. Lungu, W.G. Read, Z. Shippony, J.W. Waters, I.S. McDermid, T.J. McGee, U.N. Singh, M.R. Gross, A. Hauchecorne, P. Keckhut, M.E. Gelman,and R.M. Nagatani, J. Geophys. Res., 101, 9,983-10,016 (1996).
3. + “UARS Correlative Temperature Measurements by NASA/GSFC Mobile Lidar“, U.N. Singh, T.J. McGee, M.R. Gross, P. Kimvilakani, P. Keckhut, A. Hauchecorne, I.S. McDermid, E.F. Fishbein, J.W. Waters, J.C. Gille, A.E. Roche, J.M. Russell, and A. Dudhia, Upper Atmosphere Research Satellite (UARS) Science Team Meeting, Pasadena, CA, March 28-30, 1995.
4. + “Correlative Profile Measurements of Ozone and Aerosols made by the NASA/GSFC Stratospheric Ozone Lidar Trailer Experiment“, M.R. Gross, T.J. McGee, U.N.Singh, et al., Upper Atmosphere Research Satellite (UARS) Science Team Meeting, Pasadena, CA, March 28-30, 1995.
5. + “Stratospheric Temperature Measurements Intercomparison using Lidars and UARS Instruments at Table Mountain NDSC Station“, U.N. Singh, M. Gross, T.J. McGee, I.S. McDermid, J. Waters, E. Fishbein, J. Russell, J. Gille, P. Bailey, A. Roche, and J. Kumer, 17th International Laser Radar Conference, Sendai, Japan, July 22-29, 1994.
6. + “Temperature Measurements Intercomparison at OHP using Rayleigh Lidars and UARS Instruments“, P. Keckhut, A. Hauchecorne, U.N. Singh, M. Gross, T.J. McGee, J. Waters, E. Fishbein, J. Gille, P. Bailey, A. Roche, J. Kumer, and J. Russell, 17th International Laser Radar Conference, Sendai, Japan, July 22-29, 1994.
7. + “Lidar Measurements of Stratospheric Ozone, Temperature, and Aerosol during 1992 UARS Correlative Measurement Campaign“, T.J. McGee, U.N. Singh, M. Gross, W.S. Heaps, and R. Ferrare, 16th International Laser Radar Conf., Cambridge, MA, July 20-24, 1992.

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W

Water Quality Measurements/MOCS

1.   “Signature Analysis of Reflectance Spectra of Phytoplankton and Sediment in Inland Waters“, G. W. Grew, Remote Sensing of Earth Resources, Vol. II, Benson Printing Company, Nashville, Tenn., 1973.
2. + “Remote Detection of Water Pollution with MOCS: An Imaging Multispectral Scanner“, G. W. Grew, Proceedings of Second Conference on Environmental Quality Sensors, Las Vegas, Nev., October 10-11, 1973.
3. + “Measurements of Spectral Visible Radiance of Ocean Water and Overlying Atmosphere“, Richard C. Ramsey and Gary W. Grew, 1972 IEEE Conference on Engineering in the Ocean Environment, Newport, Rhode Island, September 1972.
4.   “Preliminary Data from the May 28, 1974 Simultaneous Evaluation of Remote Sensors Experiments“, Robert W. John, Carman E. Batten, David E. Bowker, Walter E. Bressette, and Gary W. Grew, NASA TMX-72676, 1975.
5. + “Remote Detection of Chlorophyll-A In Coastal Waters“, Gary W. Grew, Fifth Annual Remote Sensing of Earth Resources Conference, Tullahoma, Tenn., March 29-31, 1976.
6. + “Characteristic Vector Analysis as a Technique for Signature Extraction of Remote Ocean Color Data“, Gary W. Grew, Six Annual Remote Sensing of Earth Resources Conference, Tullahoma, Tenn., March 29-31, 1977.
7.   “Multichannel Ocean Color Sensor (MOCS)“, Gary W. Grew, NASA TM X-74032, April 1977.
8. + “Signature Extraction of Ocean Pollutants by Eigenvector Transformation of Remote Spectra“, Gary W. Grew, Fourth Joint Conference on Sensing of Environmental Pollutants, New Orleans, La., November 6-11, 1977.
9. + “Test of Real-Time Multichannel Ocean Color Scanner (MOCS) Algorithm During Superflux 1980“,Gary W. Grew, Symposium on Results of 1980 Chesapeake Bay Plume Study, Williamsburg, Virginia, January 21-23, 1981.
10.   “Ocean Color Algorithm for Remote Sensing of Chlorophyll“, Gary W. Grew and Leonard S. Mayo, NASA TP-2164. May 1983.
11.   “Characteristic Vector Analysis of Inflection Ratio Spectra: New Technique for Analysis of Ocean Color Data“, Gary W. Grew, April 1985.

Water Vapor Measurements/LASE

1. + “Development of the Lidar Atmospheric Sensing Experiment (LASE), an Advanced Airborne DIAL Instrument“, A. Moore, J. Barnes, W. Edwards, et al. Presented at the 18th International Laser Radar Conference, Berlin, Germany, July, 1996.
2. + “Evaluation of NASA LASE Water Vapor DIAL System Performance Using Engineering Test Flight Measurements“, S. Ismail, E. Browell, W. Hall, J. Barnes, W. Luck, A. Little, and S. Kooi S, International Geoscience and Remote Sensing Symposium, Firence, Italy, July 10-14, 1995.
3. + “NASA Airborne Ti:Sapphire Water Vapor DIAL“, J. Barnes, E. Browell, and W. Edwards, International Conference on Lasers ’94, Quebec (Quebec), Canada, December 1994.
4. + “Water Vapor Measurements for Combustion Diagnostics Using a 1350nm Tunable Diode Laser“, Liang-guo Wang, Richard E. Trucoo, Glen W. Sachse, Richard E. Campbell, and Richard E. Davis, Presented at Laser Applications in Combustion and Combustion Diagnostics II (SPIE’s OE/LASE’94, 22-29 January 1994, Los Angeles,CA).
5. * “Water-Vapor Absorption Line Measurements in the 940-nm band by Using a Raman-Shifted Dye Laser“, Z. Chu, T.D. Wilkerson, and U.N. Singh, Appl. Opt.,32, 992-996 (1993).
6. + “Water Vapor Absorption Line Measurements Near 940 nm using a Raman Shifted Dye Laser System“, Z. Chu, T.D. Wilkerson, and U.N. Singh, Proc. Conf. on Laser and Electro-optics (CLEO ’91), Paper CFG2, Baltimore, MD, May 12-17, 1991.
7.   “Progress of Research on Water Vapor Lidar“, T.D. Wilkerson and U.N. Singh, Technical Note BN 1104, University of Maryland, October 1989.
8. * “Raman Shifted Dye Laser for Water Vapor DIAL Measurements“, B.E. Grossmann, U.N. Singh, M.S. Higdon, L.J. Cotnoir, T.D. Wilkerson, and E.V. Browell, Appl. Opt., 26, 1617 1621 (1987).
9. + “Lidar Water Vapor Measurements in the Lower Atmosphere“, U.N. Singh, P.H. Flamant, C. Cahen, and G. Megie, Proc. 12th Internat. Laser Radar Conf., Aix-en-Provence, France, p 195, August 13 17,1984.

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