J
Jonathan Tennyson
Researcher at University College London
Publications - 1061
Citations - 52361
Jonathan Tennyson is an academic researcher from University College London. The author has contributed to research in topics: Ab initio & Excited state. The author has an hindex of 97, co-authored 1007 publications receiving 47077 citations. Previous affiliations of Jonathan Tennyson include SERC Reliability Corporation & University of Helsinki.
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The ExoMol project: Software for computing large molecular line lists
TL;DR: The use of variational nuclear motion programs to compute line lists of transition frequencies and intensities is now a standard procedure as mentioned in this paper, and the ExoMol project has used this technique to generate line lists for studies of hot bodies such as the atmospheres of exoplanets and cool stars.
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ExoMol molecular line lists – XX. A comprehensive line list for H3+
Irina I. Mizus,Alexander Alijah,Nikolai F. Zobov,Lorenzo Lodi,Aleksandra A. Kyuberis,Sergei N. Yurchenko,Jonathan Tennyson,Oleg L. Polyansky,Oleg L. Polyansky +8 more
TL;DR: In this article, a new line list for H3+ called MiZATeP was computed as part of the ExoMol project alongside a temperature-dependent cooling function and partition function as well as lifetimes for excited states.
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Dipole Moments of Highly Vibrationally Excited Water
A. Callegari,Patrice Theulé,John S. Muenter,R. N. Tolchenov,Nikalai F. Zobov,Oleg L. Polyansky,Jonathan Tennyson,Thomas R. Rizzo +7 more
TL;DR: Dipole moment measurements of highly vibrationally excited water are reported, which provide stringent tests of intensities determined by other means and suggest that the best currently available potential and dipole surfaces do not accurately model intensities in the optical spectrum of water.
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Deuterated hydrogen chemistry: Partition functions, Equilibrium constants and Transition intensities for the H3+ system
TL;DR: In this article, the rotation-vibration energy levels of the deuterated isotopomers of H3+ and D2H+ were calculated to a temperature of 800 K by explicitly summing the ab initio determined rotationvibrration energy level of the respective species.
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H 2 Quadrupole and H + 3 Emission from Uranus: The Uranian Thermosphere, Ionosphere, and Aurora
Laurence M. Trafton,Laurence M. Trafton,Steve Miller,Thomas R. Geballe,Jonathan Tennyson,Gilda E. Ballester +5 more
TL;DR: In this article, the authors present an analysis of the near-infrared emission of Uranus, obtained from 1993 to 1995 at the United Kingdom Infrared Telescope (UKIRT) and the NASA IRTF, and report that prominent emission in the H2 quadrupole and H overtone and fundamental bands occurs globally.