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RESEARCH PRODUCT
Rotational-vibrational relative equilibria and the structure of quantum energy spectrum of the tetrahedral molecule P4
Boris ZhilinskiiVincent BoudonCh. Van HeckeDmitrií A. Sadovskiísubject
PhysicsTetrahedral molecular geometrySymmetry groupDiatomic moleculeAtomic and Molecular Physics and OpticsRotational energysymbols.namesakePhase spaceQuantum mechanicsExcited statesymbolsEnergy levelAtomic physicsHamiltonian (quantum mechanics)description
We find relative equilibria (RE) of the rotating and vibrating tetrahedral molecule P4 and study the correspondence of these RE's to the extremal quantum states in the vibration-rotation multiplet and to the extrema of the semi-quantum rotational energy surfaces obtained for a number of excited vibrational states. To compute the energy of RE's we normalize the full rotation-vibration Hamiltonian H of P4 in the approximation of nonresonant modes ν E 2 and ν F_2 3 and find the stationary points of the resulting normal form (known as reduced effective Hamiltonian H eff ) which is defined on the reduced phase space CP 2 × CP 1 × S 2 . Most of these points are fixed points of the symmetry group action on CP 2 × CP 1 × S 2 . To explain our results in more detail we introduce numerical values of the parameters of H, such as the cubic force constants, using an atom-atom harmonic potential with one adjustable parameter. This simple model gives correct qualitative description of the rotational structure of the lowest excited vibrational states ν 2 , ν 3 and ν 2 + ν 3 of P4.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2001-10-01 | The European Physical Journal D |