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Geometrical phase

Because of limitations of space, this section concentrates very little on rotational motion and its interaction with the vibrations of a molecule. However, this is an extremely important aspect of molecular dynamics of long-standing interest, and with development of new methods it is the focus of mtense investigation [18, 19, 20. 21. 22 and 23]. One very interesting aspect of rotation-vibration dynamics involving geometric phases is addressed in section A1.2.20. [Pg.58]

Kuppermann A and Wu Y S M 1993 The geometric phase effect shows up in chemical reactions Chem. [Pg.2323]

Berry M 1990 Anticipations of the geometric phase Physics Today 43 34... [Pg.2330]

Molecular aspects of geometric phase are associated with conical intersections between electronic energy surfaces, W(Q), where Q denotes the set of say k vibrational coordinates. In the simplest two-state case, the W Q) are eigen-surfaces of the nuclear coordinate dependent Hermitian electronic Hamiltonian... [Pg.4]

The presence of the half-odd quantum number j in Eq. (69) is potentially a physically measurable consequence of geomehic phase, which was first claimed to have been detected in the spectrum of Naa [16]. The situation is, however, quite complicated and the first unambiguous evidence for geometric phase in Nas was reported only in 1999 [17],... [Pg.20]

EARLY PERSPECTIVES ON GEOMETRIC PHASE Quadratic case lower surface... [Pg.23]

Mead and Truhlar [10] broke new ground by showing how geometric phase effects can be systematically accommodated in scattering as well as bound state problems. The assumptions are that the adiabatic Hamiltonian is real and that there is a single isolated degeneracy hence the eigenstates n(q-, Q) of Eq. (83) may be taken in the form... [Pg.25]

It is beyond the scope of these introductory notes to treat individual problems in fine detail, but it is interesting to close the discussion by considering certain, geometric phase related, symmetry effects associated with systems of identical particles. The following account summarizes results from Mead and Truhlar [10] for three such particles. We know, for example, that the fermion statistics for H atoms require that the vibrational-rotational states on the ground electronic energy surface of NH3 must be antisymmetric with respect to binary exchange... [Pg.28]

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See also in sourсe #XX -- [ Pg.112 ]



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Adiabatic vector potential, electronic geometric phase factors

Conical intersections geometric phase effect

Conical intersections geometric phase theory

Dispersed-phase rheology, geometrical

Dynamic Jahn-Teller and geometric phase

Dynamic Jahn-Teller and geometric phase effects

Eigenstates geometric phase theory

Electronic geometric phase factors

Electronic geometric phase factors excitation

Electronic geometric phase factors potential

Geometric Phase Effects in Chemical

Geometric phase

Geometric phase effect

Geometric phase effect , molecular systems

Geometric phase effect 5 systems

Geometric phase effect adiabatic states, conical intersections

Geometric phase effect alkali metal trimers

Geometric phase effect electronic wave function

Geometric phase effect levels

Geometric phase effect potential energy surfaces

Geometric phase effect single-surface nuclear dynamics

Geometric phase effect total molecular wave function

Geometric phase nuclear wave function

Geometric phase overview

Geometric phase particle-exchange symmetry

Geometric phase reaction dynamics

Geometric phase surface

Geometric phase symmetry approach

Geometric phase theory

Geometric phase theory background

Geometric phase theory eigenvector evolution

Geometric phase theory ordering

Geometric phase theory spin-orbit coupling

Geometric phase theory wave function

Geometric phase theory, eigenvector

Geometric phase theory, single-surface

Geometric phase theory, single-surface nuclear dynamics

Geometric phase theory, single-surface nuclear dynamics, vector-potential

Geometric phase vector potentials

Geometrical influences, dispersed-phase

Geometrical isomers with phase

Geometrical phase factor

Integral cross-section , geometric phase

Interference signal, geometrical phase

Jahn-Teller effect geometric phase theory

Jahn-Teller intersection, geometric phase

Jahn-Teller molecule, geometrical phase

Molecular dynamics geometric phase theory, single-surface

Non-adiabatic coupling Geometric phase effect

Non-adiabatic coupling geometric phase effect, two-dimensional

Nuclear dynamics geometric phase theory

ONTENTS Early Perspectives on Geometric Phase

Permutational symmetry GBO approximation and geometric phase

Permutational symmetry dynamic Jahn-Teller and geometric phase

Permutational symmetry, dynamic Jahn-Teller and geometric phase effects

Phase geometrical stability

Phase-sensitive experiments, geometrical

Quadratic coupling, geometric phase theory

Quantum geometric phase

Spin-degenerate systems, geometric phase

The Geometric Phase Effect

Vector potentials, geometric phase, reaction

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