Open Access
EPJ Web of Conferences
Volume 119, 2016
The 27th International Laser Radar Conference (ILRC 27)
Article Number 06008
Number of page(s) 3
Section Poster Session (Advances in Lidar Technologies and Techniques I)
Published online 07 June 2016
  1. Hauchecorne A., M.L. Chanin, Density and temperature profiles obtained by lidar between 35 and 70 km, Geophys. Res. Lett., 7, 565-568, 1980. [CrossRef]
  2. Keckhut P., A. Hauchecorne, M.L. Chanin, A critical review of the data base acquired for the long term surveillance of the middle atmosphere by Rayleigh lidar, J. Atm. Ocean. Tech., 10, 850-867, 1993. [CrossRef]
  3. Keckhut P., M.L. Chanin, A. Hauchecorne, Stratospheric temperature measurements using Raman lidar, Applied Optics, 29, 5182-5186, 1990. [CrossRef] [PubMed]
  4. Hauchecorne A., M.L. Chanin, P. Keckhut, and D. Nedeljkovic, Lidar monitoring of the temperature in the middle atmosphere, Appl. Phys. B, 55, 29-34, 1992. [CrossRef]
  5. Nedeljkovic N., A. Hauchecorne, M.L. Chanin, Rotational Raman lidar to measure the atmospheric temperature from the ground to 30 km, IEEE Transactions on Geoscience and Remote Sensing, 31, 91–101, 1993. [CrossRef]
  6. Behrendt, A., J. Reichardt, Atmospheric temperature profiling in the presence of clouds with a pure rotational Raman lidar by use of an interferencefilter-based polychromator, Applied Optics, 39 (9), 1372-1378, 2000. [CrossRef]
  7. Fierli, F., A. Hauchecorne and B. Knudsen, Analysis of polar stratospheric clouds formation using temperature and aerosols measured by ALOMAR RMR lidar, J. Geophys. Res., 106, 24127-24141.2001. [CrossRef]
  8. Arshinov, Y., S. Bobrovnikov, I. Serikov, A. Ansmann, U. Wandinger, D. Althausen, I. Mattis, D. Müller Daytime operation of a pure rotational Raman lidar by use of a Fabry–Perot interferometer, Applied Optics, 2005, 44, 3593-3603, 2005.