Jonathan Tennyson et al- Experimental Energy Levels of the Water Molecule
Mirjana Mladenovic- Efficient Calculation of Rovibrational Energy Levels of General Tetratomic Molecules
Djedjiga Belmiloud et al- New Studies of the Visible and Near-Infrared Absorption by Water Vapour and Some Problems with the HITRAN Database
Harry M. Quiney et al- Two-electron relativistic corrections to the potential energy surface and vibration-rotation levels of water
Andrew J. Lim, Ismanuel Rabadan and Jonathan Tennyson- Electron-impact rotational excitation of CH^+
Jonathan Tennyson and Lesley A. Morgan- Electron collisions with polyatomic molecules using the R-matrix method
Darian T. Stibbe and Jonathan Tennyson- Comment on ‘Potential energy surfaces of excited states of H2^-'
Steven A. Manson et al- The molecular potential energy surface and vibrational energy levels of methyl fluoride. Part II
The Molecular Symmetry Group
Magdolna Hargittai and Istvan Hargittai- Symmetry in chemistry
Antonio Riganelli, Frederico V. Prudente and Antonio J. C. Varandas- On the Rovibrational Partition Function of Molecular Hydrogen at High Temperatures
Frederico V. Prudente, Antonio Riganelli and Antonio J. C. Varandas- Calculation of the Rovibrational Partition Function Using Classical Methods with Quantum Corrections
A. Riganelli, W. Wang and A. J. C. Varandas- Monte Carlo Simulation Approach to Internal Partition Functions for van der Waals Molecules
Antonio Riganelli, Frederico V. Prudente and Antonio J. C. Varandas- Evaluation of vibrational partition functions for polyatomic systems: quantum versus classical methods for H2O
K L Baluja et al- Electron collisions with ClO using the R-matrix method
Jonathan Tennyson et al- H3^+ near dissociation: theoretical progress
Steven Miller et al- The role of H3^+ in planetary atmospheres
Jonathan Tennyson and Steven Miller- Spectroscopy of H3^+ and its impact on astrophysics
H. Naus et al- Cavity-Ring-Down Spectroscopy on Water Vapor in the Range 555–604 nm
Roland Schermaul et al- The Water Vapor Spectrum in the Region 8600–15 000 cm^-1: Experimental and Theoretical Studies for a New Spectral Line Database