Special thanks to Bob Knuteson and Hank Revercomb for their useful discussions regarding the AERI. Additional thanks to Andrew Collard for help and use of the adding–doubling model required to derive the cirrus cloud reflectance parameterizations. This work was partially supported through the Wisconsin Space Grant Consortium and the following grants: NSF, ATM-9321330; NASA, NAG-1-882; Lockheed, SK30G4160F; USAFGL, F19628-91-K-0007; NOAA, NA47EC0057; and DOE, DR-FG02-90ER61057.
Ackerman, S. A., W. L. Smith, J. D. Spinhirne, and H. E. Revercomb, 1990: The 27–28 October 1986 FIRE IFO cirrus case study: Spectral properties of cirrus clouds in the 8–12-μm window. Mon. Wea. Rev.,118, 2377–2388.
——, E. W. Eloranta, C. J. Grund, R. O. Knuteson, H. E. Revercomb, W. L. Smith, and D. P. Wylie, 1993: University of Wisconsin remote sensing pilot experiment. Bull. Amer. Meteor. Soc.,74, 1041–1049.
Chappelaz, J., T. Blunler, D. Reynaud, J. M. Barnola, J. Schwander, and B. Stauffer, 1993: Synchronous changes in atmospheric CH4 and Greenland climate between 40 and 8 kyr BP. Nature,366, 443–445.
Clough, S. A., M. J. Iacono, and J.-L. Moncet, 1992: Line-by-line calculation of atmospheric fluxes and cooling rates: Application to water vapor. J. Geophys. Res.,97, 15 761–15 785.
Collard, A. D., S. A. Ackerman, W. L. Smith, X. Ma, H. E. Revercomb, R. O. Knuteson, and S.-C. Lee, 1995: Cirrus cloud properties derived from high spectral resolution infrared spectrometry during FIRE II. Part II: Ground-based HIS results. J. Atmos. Sci.,52, 4264–4275.
——, and P. Piironen, 1996: Measurements of particle size in cirrus clouds with the high spectral resolution lidar. Eighth Int. Workshop on Multiple Scattering Lidar Experiments. Quebec, PQ, Canada, MUSCLE8, 98–101.
Francis, P. N., 1995: Some aircraft observations of the scattering properties of ice crystals. J. Atmos. Sci.,52, 1142–1154.
Genthon, C., J. M. Barnola, D. Reynaud, C. Lewis, J. Jouzel, N. I. Barkov, Y. S. Kotkevich, and V. M. Kotlyakov, 1987: Vostok ice core: Climatic response to CO2 and orbital forcing changes over the last climatic cycle. Nature,366, 414–418.
Hansen, J. E., 1971: Multiple scattering of polarized light in a planetary atmosphere. Part II: Sunlight reflected by terrestrial water clouds. J. Atmos. Sci.,28, 1400–1426.
Hecht, E., 1990. Optics. Addison-Wesley, 676 pp.
Measures, R. M., 1992: Laser Remote Sensing: Fundamentals and Applications. Krieger, 42 pp.
Piironen, P., 1994: A high spectral resolution lidar based on an iodine absorption filter. Ph.D. thesis, University of Joensuu, Finland, 113 pp. [Available from Joensuu University Library, Sale of Publications, P.O. Box 107, FIN-80101 JOENSUU.].
——, and E. W. Eloranta, 1994: Demonstration of a high-spectral-resolution lidar based on an iodine absorption filter. Opt. Lett.,19, 234–236.
Prabhakara, C., D. P. Kratz, J.-M. Yoo, G. Dalu, and V. Vernekar, 1993: Optically thin cirrus clouds: Radiative impact on the warm pool. J. Quant. Spectrosc. Radiat. Transfer,49, 467–483.
Revercomb, H. E., and Coauthors, 1996: Atmospheric emitted radiance interferometer (AERI), Part I: Status, basic radiometric accuracy, and unexpected errors and solutions. Proc. Sixth Atmospheric Radiation Measurement (ARM) Science Team Meeting, San Antonio, TX, 273–277.
Rossow, W. B., and A. A. Lacis, 1990: Global, seasonal cloud variations from satellite radiance measurements. Part II: Cloud properties and radiative effects. J. Climate,3, 1204–1253.
Schneider, S. H., 1990: The global warming debate heats up: An analysis and perspective. Bull. Amer. Meteor. Soc.,71, 1292–1304.
Smith, W. L., H. E. Revercomb, R. O. Knuteson, F. A. Best, R. Dedecker, H. B. Howell, and H. M. Woolf, 1995: Cirrus cloud properties derived from high spectral resolution infrared spectrometry during FIRE II. Part I: The high resolution interferometer sounder (HIS) systems. J. Atmos. Sci.,52, 4238–4245.
——, S. Ackerman, H. Revercomb, H. Huang, D. H. DeSlover, W. Feltz, L. Gumley, and A. Collard, 1998: Infrared spectral absorption of nearly invisible cirrus clouds. Geophys. Res. Lett.,25, 1137–1140.
Takano, Y., and K.-N. Liou, 1989: Solar radiative transfer in cirrus clouds. Part I: Single-scattering and optical properties of hexagonal ice crystals. J. Atmos. Sci.,46, 3–19.
——, ——, and P. Minnis, 1992: The effects of small ice crystals on cirrus infrared radiative properties. J. Atmos. Sci.,49, 1487–1493.