Thomas R. Geballe
University of Hawaii at Manoa
312 Papers
4.5K Citations
Thomas R. Geballe is an academic researcher from University of Hawaii at Manoa. The author has contributed to research in topics: Stars & Brown dwarf. The author has an hindex of 71, co-authored 301 publications.
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Papers
The systemic redshift of the quasar 1331 + 170
Robert F. Carswell,C. M. Mountain,David J. Robertson,S. M. Beard,A. R. Glendinning,D. C. Laird,L. C. Lawrence,D. Montgomery,G. Pentland,D. A. Pickup,Ian Smith,Jeremy Bailey,A. Bridger,M. M. Casali,Thomas R. Geballe,P. J. Puxley,Malcolm G. Smith,G. S. Wright,S. K. Ramsay,A. C. Baker,Brian R. Espey,Martin Ward +21 more
TL;DR: In this paper, infrared spectra covering the 1.6 and 2 μm regions of the quasar 1331+170, redshift z = 2.09, were obtained with CGS4 spectrometer at the UK Infrared Telescope.
Hh 222: a giant herbig–haro flow from the quadruple system v380 ori
Bo Reipurth,John Bally,C. Aspin,M. S. Connelley,Thomas R. Geballe,Stefan Kraus,Immo Appenzeller,Adam J. Burgasser +7 more
TL;DR: In this article, the Orion Streamers are shown to be a giant bow shock with two infrared sources coincident with a nonthermal radio jet aligned along the principal streamer.
Hot CH4 in the polar regions of Jupiter
TL;DR: In this paper, the authors obtained 3.3-3.4-μm spectro-images of Jupiter including CH_4 and H_3^+ emission lines from both polar regions at the Gemini North telescope.
Variation in the H + 3 Emission of Uranus
H. A. Lam,H. A. Lam,Steven Miller,Steven Miller,Robert D. Joseph,Thomas R. Geballe,Laurence M. Trafton,Jonathan Tennyson,Gilda E. Ballester +8 more
TL;DR: In this paper, the authors presented infrared images of Uranus, obtained in 1993 April, at wavelengths sensitive to the H+3 molecular ion, and showed that spatial variation in the emission from the planet is discernible.
Velocity-resolved Fabry-Pérot imaging of molecular hydrogen emission in OMC-1
Antonio Chrysostomou,Michael G. Burton,David Axon,David Axon,Peter W. J. L. Brand,J. H. Hough,Joss Bland-Hawthorn,Thomas R. Geballe +7 more
TL;DR: In this paper, a velocity-resolved data cube of the distribution of the V = 1-0 S(1) line of molecular hydrogen from the source OMC-1 was presented.