Add to ORKGRelative equilibria of molecules are classical trajectories corresponding to steady rotations about stationary axes during which the shape of the molecule does not change. They can be used to explain and predict features of quantum spectra at high values of the total angular momentum J in much the same way that absolute equilibria are used at low J. This paper gives a classification of the symmetry types of relative equilibria of AB(2) molecules and computes the relative equilibria bifurcation diagrams and normal mode frequencies for D2H+ and H2D+. These are then fed into a harmonic quantization procedure to produce a number of predictions concerning the structures of energy level clusters and their rearrangements as J increases. In particu...
This book presents a range of fundamentally new approaches to solving problems involving traditional...
The first edition, by P.R. Bunker, published in 1979, remains the sole textbook that explains the us...
$^{1.}$ F.M. Fernandez and J.F. Ogilvie, Phys. Rev. 42 (1990) 4001-4007. $^{2.}$ F.M. Fernandez and ...
We present a global study of how the relative equilibria of the H-3(+) ion change as the angular mom...
We describe a method for finding the families of relative equilibria of molecules which bifurcate fr...
18 pagesInternational audienceA new, non adiabatic, description of the H2+ molecular ion and its iso...
This thesis describes a series of experimental and theoretical projects designed to explore the dyna...
We study relative equilibria ( RE) of a nonrigid molecule, which vibrates about a well-defined equil...
This article presents a theoretical quantum method for the description of the stereo-dynamics of fou...
Zhao B, Han S, Malbon CL, Manthe U, Yarkony DR, Guo H. Full-dimensional quantum stereodynamics of th...
In this work, a computational model of state-to-state energy flow in gas ensembles is used to invest...
A simple statistical expression is given for the density of states of any symmetry species for linea...
It is shown that the differences in the thermodynamic properties of HT and D2 is due to the fact tha...
It is shown by the discussion of the wave equation for a diatomic molecule in a crystal that the mot...
We present 140 accurate potential energy curves, PECs, for the Sigma, Pi, Delta, Phi, and Gamma mani...
This book presents a range of fundamentally new approaches to solving problems involving traditional...
The first edition, by P.R. Bunker, published in 1979, remains the sole textbook that explains the us...
$^{1.}$ F.M. Fernandez and J.F. Ogilvie, Phys. Rev. 42 (1990) 4001-4007. $^{2.}$ F.M. Fernandez and ...
We present a global study of how the relative equilibria of the H-3(+) ion change as the angular mom...
We describe a method for finding the families of relative equilibria of molecules which bifurcate fr...
18 pagesInternational audienceA new, non adiabatic, description of the H2+ molecular ion and its iso...
This thesis describes a series of experimental and theoretical projects designed to explore the dyna...
We study relative equilibria ( RE) of a nonrigid molecule, which vibrates about a well-defined equil...
This article presents a theoretical quantum method for the description of the stereo-dynamics of fou...
Zhao B, Han S, Malbon CL, Manthe U, Yarkony DR, Guo H. Full-dimensional quantum stereodynamics of th...
In this work, a computational model of state-to-state energy flow in gas ensembles is used to invest...
A simple statistical expression is given for the density of states of any symmetry species for linea...
It is shown that the differences in the thermodynamic properties of HT and D2 is due to the fact tha...
It is shown by the discussion of the wave equation for a diatomic molecule in a crystal that the mot...
We present 140 accurate potential energy curves, PECs, for the Sigma, Pi, Delta, Phi, and Gamma mani...
This book presents a range of fundamentally new approaches to solving problems involving traditional...
The first edition, by P.R. Bunker, published in 1979, remains the sole textbook that explains the us...
$^{1.}$ F.M. Fernandez and J.F. Ogilvie, Phys. Rev. 42 (1990) 4001-4007. $^{2.}$ F.M. Fernandez and ...