1951.
Gero, Jonathan; Adler, Doug; Best, Fred; Knuteson, Bob; Pettersen, Claire; Revercomb, Hank; Taylor, Joe and Perepezko, John. On-orbit absolute radiance standard for the next generation of IR remote sensing instruments. Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, Cooperative Institute of Meteorological Satellite Studies (CIMSS), 2014, poster presentation. 1p. 
Link to PDF
1952. Gero, Jonathan; Best, Fred; Revercomb, Hank; Taylor, Joe; Adler, Doug; Knuteson, Robert; Pettersen, Claire and Tobin, David. The on-orbit absolute radiance standard for infrared satellite validation. Espoo, Finland, Aalto University, 2014, pp.45-46. Reprint # 7767.
1953.
Gero, Jonathan; Hackel, Denny; Borg, Lori; Feltz, Wayne and Garcia, Raymond. AERI profiling using FTS first guess. Washington, DC, US Department of Energy, Office of Energy Research, Office of Health and Environmental Research, Environmental Sciences Division, 2013, abstract. Link to PDF
1954.
Gero, Jonathan; Knuteson, Robert; Hackel, Denny; Best, Fred; Garcia, Raymond; Phillips, Coda; Revercomb, Henry and Smith, William. A new Marine Atmospheric Emitted Radiance Interferometer (M-AERI) for shipboard atmospheric and oceanic observations. Washington, DC, US Department of Energy, Office of Energy Research, Office of Health and Environmental Research, Environmental Sciences Division, 2015, abstract. Link to PDF
1955. Gero, Jonathan; Knuteson, Robert; Hackel, Denny; Best, Fred; Garcia, Raymond; Phillips, Coda; Revercomb, Henry E.; Smith, William L.; Verret, Eric; Lantagne, Stephane and Roy, Claude. A new marine atmospheric emitted radiance interferometer for shipboard atmospheric and oceanic observations. Washington, DC, Optical Society of America, 2015, Abstract JM1A.2.
1956.
Gero, Jonathan; Knuteson, Robert; Hackel, Denny; Phillips, Coda and Westphall, Matthew. Sea-based infrared radiance measurements of ocean and atmosphere from the ACAPEX/CalWater 2 Campaign. Madison, WI, University of Wisconsin-Madison, Space Science and Engineering Center, Cooperative Institute of Meteorological Satellite Studies (CIMSS), 2015, poster presentation. 1p. Link to PDF
1957. Gero, Jonathan; Revercomb, Henry; Best, Fred A.; Adler, Douglas; Garcia, Raymond; Knuteson, Robert; Pettersen, Claire; Taylor, Joe and Tobin, David. A new class of advanced accuracy satellite intrumentation for earth observation. Washington, DC, Optical Society of America, 2013, Abstract FW4D.3.
1958. Gero, Jonathan; Taylor, Joe; Best, Fred; Revercomb, Hank; Garcia, Ray; Knuteson, Bob; Tobin, Dave; Adler, Doug; Ciganovich, Nick and Dutcher, Steve. The heated halo for space-based blackbody emissivity measurement. Logan, UT, Space Dynamics Laboratory (SDL), Utah State University, 2012, PowerPoint presentation.
1959.
Gero, Jonathan; Taylor, Joe; Best, Fred; Revercomb, Henry; Knuteson, Robert and Tobin, David. On-orbit absolute blackbody emissivity determination using the heated halo method. Gaithersburg, MD, US Department of Commerce, National Institute of Standards and Technology, 2011, pp.24-25. Reprint # 7772. Link to PDF
1960. Gero, Jonathan; Taylor, Joe; Best, Fred; Revercomb, Henry; Knuteson, Robert; Tobin, David; Adler, Douglas P.; Ciganovich, Nick; Dutcher, Steven and Garcia, Ray. On-orbit absolute blackbody emissivity determination using the heated halo method. Washington, DC, Optical Society of America, 2011, Abstract FMA3.
1961. Gero, Jonathan; Westphall, Matthew H.; Knuteson, Robert O.; Nalli, Nicholas and Smith, William L.. Sea surface emissivity, temperature and atmospheric measurements from the M-AERI during the ACAPEX campaign. Washington, DC, Optical Society of America, 2016, Abstract HW3E-4.
1962.
Gero, Jonathan; Westphall, Matthew; Knuteson, Robert; Hackel, Denny and Phillips, Coda. Sea surface emissivity, temperature and atmospheric measurements from m-AERI during the ACAPEX campaign. Washington, DC, US Department of Energy, Office of Energy Research, Office of Health and Environmental Research, Environmental Sciences Division, 2016, abstract. Link to PDF
1963.
Gero, Jonathan; Westphall, Matthew; Knuteson, Robert; Nalli, Nicholas and Smith, William. Marine-AERI retrievals of sea surface emissivity and skin temperature from the ACAPEX campaign. Washington, DC, US Department of Energy, Office of Energy Research, Office of Health and Environmental Research, Environmental Sciences Division, 2017, abstract. Link to PDF
1964. Gero, P. and Turner, D.. Investigating climate trends in 14 years of AERI observations at the ARM SGP Site. Washington, DC, American Geophysical Union, 2010, Abstract A11C-0056.
1965. Gero, P. J.; Knuteson, R. O.; Hackel, D.; Best, F. A.; Garcia, R.; Phillips, C.; Revercomb, H. E.; Smith, W. L.; Verret, E.; Lantagne, S. M. and Roy, C. B.. A new Marine Atmospheric Emitted Radiance Interferometer (M-AERI) for shipboard atmospheric and oceanic observations. Washington, DC, American Geophysical Union, 2014, Abstract A53J-3340.
1966. Gero, P. J.; Taylor, J. K.; Best, F. A.; Revercomb, H. E.; Knuteson, R. O.; Tobin, D. C.; Adler, D. P.; Ciganovich, N. N.; Ditcher, S. and Garcia, R. K.. On-orbit traceable blackbody emissivity measurements using the heated halo method. Washington, DC, American Geophysical Union, 2009, Abstract GC43A-0792.
1967.
Gero, P. Jonathan and Turner, David D.. Long-term trends in downwelling spectral infrared radiance over the US Southern Great Plains. Journal of Climate, Volume: 24, Issue: 18, 2011. Reprint # 6507. Link to PDF
1968. Gero, P. Jonathan; Dykema, John A. and Anderson, James G.. On-orbit characterization of blackbody emissivity and spectrometer instrument line-shape using quantum cascade laser based reflectrometry. Washington, DC, Optical Society of America, 2009, Abstract HMC3.
1969. Gero, P. Jonathan; Knuteson, Robert O.; Shiomi, Kei; Kuze, Akihiko; Kataoka, Fumie; Revercomb, Henry E.; Tobin, David C.; Taylor, Joseph K. and Best, Fred A.. GOSAT TANSO FTS TIR band calibration: A five year review. Bellingham, WA, SPIE-The International Society for Optical Engineering, 2014, Paper 926316. Reprint # 8149.
1970. Gero, P. Jonathan; Knuteson, Robert; Hackel, Denny; Phillips, Coda and Westphall, Matthew. Sea-based infrared radiance measurements of ocean and atmosphere from the ACAPEX/CalWater2 Campaign. Washington, DC, American Geophysical Union, 2015, Abstract A51L-0237.
1971. Gero, P. Jonathan; Taylor, Joe K.; Best, Fred A.; Revercomb, Henry E.; Garcia, Raymond K.; Adler, Douglas P.; Ciganovich, Nick N.; Knuteson, Robert O. and Tobin, David C.. The heated halo for space-based blackbody emissivity measurement. Washington, DC, American Geophysical Union, 2012, Abstract A21D-0087.
1972.
Gero, P. Jonathan; Taylor, Joseph K.; Best, Fred A.; Garcia, Raymond K. and Revercomb, Henry E.. On-orbit absolute blackbody emissivity determination using the heated halo method. Metrologia, Volume: 49, Issue: 2, 2012, S1-S8. Reprint # 6631. Link to PDF
1973. Gero, P. Jonathan; Taylor, Joseph K.; Best, Fred A.; Revercomb, Henry E.; Garcia, Raymond K.; Knuteson, Robert O.; Tobin, David C.; Adler, Douglas P. and Ciganovich, Nick N.. The heated halo for space-based blackbody emissivity measurement. Bellingham, WA, SPIE-International Society for Optical Engineering, 2012, Paper 85270N. Reprint # 7087.
1974.
Gero, P. Jonathan; Taylor, Joseph K.; Best, Fred A.; Revercomb, Henry E.; Knuteson, Robert O.; Tobin, David C.; Adler, Douglas P.; Ciganovich, Nick N.; Dutcher, Steven and Garcia, Raymond K.. On-orbit absolute blackbody emissivity determination using the heated halo method. Bellingham, WA, SPIE-International Society for Optical Engineering, 2010, Paper 78570L. Reprint # 6511. Link to PDF
(© 2010 Society of Photo Optical Instrumentation Engineers (SPIE). One print or electronic copy may be made for personal use only. Systematic reproduction and distribution, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper are prohibited.)
1975. Gero, P. Jonathan; Westphall, Matthew; Knuteson, Robert O. and Smith, William L.. Retrievals of sea surface emissivity and skin temperature from M-AERI observations from the ACAPEX/CalWater2 campaign. Washington, DC, American Geophysical Union, 2016, Abstract A51B-0029.