Open Access
EPJ Web of Conferences
Volume 119, 2016
The 27th International Laser Radar Conference (ILRC 27)
Article Number 10002
Number of page(s) 4
Section Lidar Applications to Winds and Turbulence
Published online 07 June 2016
  1. Asaka, K., T. Yanagisawa, and Y. Hirano, 2001:1.5-μm eye-safe coherent lidar system for wind velocity measurement. SPIE. 4153: p. 321-328.
  2. Frehlich, R., 1994:Coherent Doppler lidar signal covariance including wind shear and wind turbulence. Appl. Opt. 33(27): p. 6472-6481. [CrossRef] [PubMed]
  3. Dolfi-Bouteyre, A., et al., 2007:1.5 μm all fiber pulsed lidar for wake vortex monitoring, in 14th Coherent Laser Radar Conference.
  4. Huffaker, R.M. and R.M. Hardesty, 1996:Remote sensing of atmospheric wind velocities using solidstate and CO2 coherent laser systems. Proceedings of the IEEE. 84(2): p. 181-204. [CrossRef]
  5. Kane, T.J., et al., 1987:Coherent laser radar at 1.06 um using Nd:YAG lasers. Opt. Lett. 12(4): p. 239-241. [CrossRef] [PubMed]
  6. Jirong, Y., et al. An all solid-state 2um laser system for space coherent wind lidar. in Aerospace Conference Proceedings, 2000 IEEE. 2000.
  7. Hannon, S.M., S.R. Vetorino, and J.V. Pelk, 2007:Next generation Doppler lidar sensor at 1.6μm, in 14th Coherent Laser Radar Conference: Colorado.
  8. Ando, T., et al., 2008:All-fiber Coherent Doppler LIDAR for wind sensing. Materials Research Society. 1076: p. 1076-K04-05.
  9. Kameyama, S., et al., 2007:Compact all-fiber pulsed coherent Doppler lidar system for wind sensing. Applied Optics. 46(11): p. 1953-1962. [CrossRef] [PubMed]
  10. Ando, T., S. Kameyama, and Y. Hirano, 2008: Allfiber Coherent Doppler LIDAR technologies at Mitsubishi Electric Corporation, in 14th International Symposium for the Advancement of Boundary Layer Remote Sensing IOP.
  11. Zhang, X., et al., 2014:Single-frequency polarized eye-safe all-fiber laser with peak power over kilowatt. Applied Physics B. 115(1): p. 123-127. [CrossRef]