Gerald T. Fraser
National Institute of Standards and Technology
111 Papers
1K Citations
Gerald T. Fraser is an academic researcher from National Institute of Standards and Technology. The author has contributed to research in topics: Rotational spectroscopy & Infrared spectroscopy. The author has an hindex of 30, co-authored 111 publications. Previous affiliations of Gerald T. Fraser include University of Minnesota.
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Papers
Microwave and infrared characterization of several weakly bound NH3 complexesa)
TL;DR: In this article, the results of microwave and infrared spectroscopic studies of several van der Waals complexes of NH3 were presented with a molecular beam electric resonance spectrometer.
177
Microwave Spectra, Hyperfine Structure, and Electric Dipole Moments for Conformers I and II of Glycine
F. J. Lovas,Yoshiyuki Kawashima,Jens-Uwe Grabow,Richard D. Suenram,Gerald T. Fraser,Eizi Hirota +5 more
TL;DR: In this article, a number of low-J rotational transitions have been measured for two conformations of the simplest amino acid, glycine, providing precise hyperfine transition frequencies and electric dipole moments for radioastronomy searches for glycine in interstellar clouds.
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Achieving satellite instrument calibration for climate change
George Ohring,Joe Tansock,William J. Emery,James J. Butler,Lawrence E. Flynn,Fuzhong Weng,Karen St. Germain,Bruce A. Wielicki,Changyong Cao,Mitchell D. Goldberg,Jack Xiong,Gerald T. Fraser,David Kunkee,David M. Winker,Laury Miller,Stephen Ungar,David C. Tobin,James G. Anderson,David B. Pollock,Scott T. Shipley,Alan Thurgood,Greg Kopp,Philip E. Ardanuy,Thomas C. Stone +23 more
TL;DR: For the most part, satellite observations of climate are not presently sufficiently accurate to establish a climate record that is indisputable and hence capable of determining whether and at what rate the climate is changing as mentioned in this paper.
100
Sub-Doppler Infrared Spectra and Torsion–Rotation Energy Manifold of Methanol in the CH-Stretch Fundamental Region
TL;DR: The infrared spectrum of jet-cooled methanol in the CH-stretch fundamental region has been investigated by two sub-Doppler laser techniques: optothermally detected molecular-beam electric resonance and direct-absorption slit-jet spectroscopy.
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