Publications
2018, Geddes, A., et al., Python-based dynamic scheduling assistant for atmospheric measurements by Bruker instruments using OPUS, Applied Optics, 57(4), 689-691
Tags: Algorithm, FTIR
2016, Sica, R.J., A. Haefele, Retrieval of water vapor mixing ratio from a multiple channel Raman-scatter lidar using an optimal estimation method, Applied Optics, 55, 763-777
Tags: H2O, Lidar
2015, Sica, R., Haefele, A., Retrieval of temperature from a multiple-channel Rayleigh-scatter lidar using an optimal estimation method, Applied Optics, 54, 1872–1889
Tags: Lidar, Temperature
2013, Kuang, S., M. J. Newchurch, J. Burris, and X. Liu, Ground-based lidar for atmospheric boundary layer ozone measurements, Applied Optics, 52, 3557-3566
Tags: Lidar, Ozone
2008, Vogelmann, H., T. Trickl, Wide-range sounding of free-tropospheric water vapor with a differential-absorption lidar (DIAL) at a high-altitude station, Applied Optics, 47, 2116-2132
Tags: H2O, Lidar
2007, Barnes, J.E., N. C. Parikh Sharma and Trevor B. Kaplan, Atmospheric aerosol profiling with a bistatic imaging lidar system, Applied Optics, 46, 2922-2929
Tags: Aerosol, Lidar
2007, Salmon, P., Chan, W.; Griffin, J.; McKenzie, R.; Rademaker, M, Extremely High levels of Melanoma and Melanoma-in-situ in Tauranga, New Zealand: Possible Causes and Comparisons with Australia and the Northern Hemisphere, Australasian Journal of Dermatology, 48(4): 208-216
Tags: Erythemal UV, Melanoma, Spectral UV
2006, Park, C.B., H. Nakane, N. Sugimoto, I. Matsui, Y. Sasano, Y. Fujinuma, I. Ikeuchi, J. Kurokawa and N. Furuhashi, Algorithm improvement and validation of National Institute for Environmental Studies ozone differential absorption lidar at the Tsukuba Network for Detection of Stratospheric Change complementary station, Applied Optics, 45-15, 3561-3576
Tags: Algorithm, Lidar, Ozone, Validation