Photon Counter 1.5 GHz AmplifierPCOUNT GATEDVideos & PhotosDetectorsLidar LinksPublications
 
   
 


Lentz, W. J. (2002). Inexpensive High Rate Photon Counting for Lidar. 21nd International Laser Radar Conference.

Lentz, W. J. (1986). CLOUD DETECTION BY LIDAR EXTINCTION CALCULATIONS. In NASA Conference Publication (pp. 248–250).

E.M Measure, J.D. Lindberg, W. J. Lentz. (1983). The Use of Lidar as a Quantitative Remote Sensor of Aerosol Extinction. Atmospheric Sciences Laboratory (ASL), TR-0136(August), 1–25.

Eugene S. Barnes, W. J. Lentz. (1986). The Eyesafe Visioceilometer. White Sands Missile Range: Atmospheric Sciences Laboratory (ASL).

Lindberg, J. D., Lentz, W. J., Measure, E. M., & Rubio, R. (1984). Lidar determinations of extinction in stratus clouds. Applied Optics, 23(13), 2172. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/18212966

Lindberg, J. D., Lentz, W. J., Measure, E. M., & Rubio, R. (1984). LIDAR DETERMINATIONS OF EXTINCTION IN STRATUS CLOUDS. Applied Optics, 23(13), 2172–2177.

Lentz, W. J. (1982b). QUANTITATIVE EXTINCTION MEASUREMENTS WITH THE VISIOCEILOMETER. In NASA Conference Publication (pp. 211–212).

Lentz, W. J. (1982c). Quantitative extinction measurements with the visioceilometer.

Lentz, W. J. (1982d). The Visioceilometer: A Portable Visibility and Cloud Ceiling Height Lidar. Atmospheric Sciences Laboratory (ASL).

Lentz, W. J. (1982e). The visioceilometer: a portable visibility and cloud ceiling height lidar.

Lentz, W. J. (1976). Generating Bessel functions in Mie scattering calculations using continued fractions. Applied Optics, 15(3), 668–671.

Lentz, W. J. (1990). Continued fraction calculation of spherical Bessel functions. Computers in Physics, 93943(October 1989), 403–4077.

Lentz, W. J. (1976). GENERATING BESSEL FUNCTIONS IN MIE SCATTERING CALCULATIONS USING CONTINUED FRACTIONS. Applied Optics, 15(3), 668–671.

Lentz, W. J. (1973). A New Method of computing spherical Bessel Functions of Complex Argument - with tables. Atmospheric Sciences Laboratory (ASL), AD-767 223, 1–165.

Lentz, W. J. (1982a). A Simplification of Lentz’s Algorithm. Atmospheric Sciences Laboratory (ASL).

Lentz, W. J. (1984). SIMPLIFIED CONTINUED FRACTION CALCULATION OF SPHERICAL BESSEL FUNCTIONS. Atmospheric Sciences Laboratory (ASL), 22.

Lentz, W. J., Atchley, a a, & Gaitan, D. F. (1995). Mie scattering from a sonoluminescing air bubble in water. Applied Optics, 34(15), 2648–54. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/21052406

A.W. Cooper, W.J. Lentz, P.L. Walker, P. M. C. (1994). Infrared polarization measurements of ship signatures and background contrast, 2223(Jun), 300–309.

Cooper, A. W., Lentz, W. J., Baca, M. J., & Bernier, J. D. (1991). Image display and background analysis with the Naval Postgraduate Sch. infrared search and target designation system. In Proceedings of SPIE - The International Society for Optical Engineering (Vol. 1486, pp. 47–57).

Cooper, A. W., Lentz, W. J., & Engel, R. C. (1990). Background measurements using the NPS IRST system. In Proceedings of SPIE - The International Society for Optical Engineering (Vol. 1311, pp. 253–264).

Cooper, A. W., Lentz, W. J., & Walker, P. L. (1993). INFRARED POLARIZATION SHIP IMAGES AND CONTRAST IN THE MAPTIP EXPERIMENT, 2828.

Cooper, A. W., Milne, E. A., Crittenden, E. C., Walker, P. L., Moore, E., & Lentz, W. J. (1991). Ship signature measurements for tactical decision aid input In support of a continuing program of evaluation and experimental validation of FLIR Tactical Decision Aid performance codes , a series of measurements has been made of ship radiance temperature. SPIE Characterization, Propagation, and Simulation of Sources and Backgrounds, 1486, 37–46.

Cooper, A. W., Milne, E. A., Crittenden Jr., E. C., Walker, P. L., Moore, E., & Lentz, W. J. (1991). Ship signature measurements for tactical decision-aid input. In Proceedings of SPIE - The International Society for Optical Engineering (Vol. 1486, pp. 37–46).

O.A. Yakimenko, I.I. Kaminer, W.J. Lentz, P. A. G. (2002). Unmanned Aircraft Navigation for Shipboard Landing Using Infrared Vision, 38(4).

Robert B. Bonner, W. J. L. (1979). The Visioceilometer: A Portable Cloud Height and Visibility Indicator. Atmospheric Sciences Laboratory (ASL).

Walker, P. L., Lentz, W. J., & Cooper, A. W. (1995). Atmospheric and sea state dependence of polarized infrared contrast. In Proceedings of SPIE - The International Society for Optical Engineering (Vol. 2469, pp. 393–403).

William J. Lentz, James T. Hall, G. B. H. (1972). Extinction o fElectromagnetic Energy in the 8-12 um Atmospheric Window by Particulate Matter. Conference on Atmospheric Radiation, Fort Collins, Colorado AMS, Boston, Mass.

Yakimenko, O. A., Kaminer, I. I., Lentz, W. J., & Ghyzel, P. A. (2001). On shipboard navigation for unmanned air vehicles using infrared vision. In AIAA Guidance, Navigation, and Control Conference and Exhibit.

Yakimenko, O. A., Kaminer, I. I., Lentz, W. J., & Ghyzel, P. A. (2002). Unmanned aircraft navigation for shipboard landing using infrared vision. IEEE Transactions on Aerospace and Electronic Systems, 38(4), 1181–1200. doi:10.1109/TAES.2002.1145742

Yakimenko, O., Kaminer, I., & Lentz, W. (2000). Three point algorithm for attitude and range determination using vision. In Proceedings of the American Control Conference (Vol. 3, pp. 1705–1709).