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Closed symmetry

We shall suppose neither of these possibilities occurs, and in practice neither is likely in the absence of symmetry. If there is symmetry present that can produce degeneracy or zero factors of the [ -f sort, we assume that symmetry factorization has been applied and that all functions we are working with are within one of the closed symmetry subspaces of the problem. [Pg.13]

Point groups are made up of an internally consistent set of symmetry operations that leave at least one point unchanged when operating on an object to give a closed operation. Figure 5.7 illustrates the simplest, closed symmetry operations. The unit operation 1 is represented by the Statue of Liberty. Only a full rotation about the axis of symmetry will reproduce the original statue. There is no other symmetry in... [Pg.460]

A LEED pattern is obtained for the (111) surface of an element that crystallizes in the face-centered close-packed system. Show what the pattern should look like in symmetry appearance. Consider only first-order nearest-neighbor diffractions. [Pg.312]

Magnetic circular dicliroism (MCD) is independent of, and thus complementary to, the natural CD associated with chirality of nuclear stmcture or solvation. Closely related to the Zeeman effect, MCD is most often associated with orbital and spin degeneracies in cliromophores. Chemical applications are thus typically found in systems where a chromophore of high symmetry is present metal complexes, poriihyrins and other aromatics, and haem proteins are... [Pg.2966]

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]

Static properties of some molecules ([193,277-280]). More recently, pairs of ci s have been studied [281,282] in greater detail. These studies arose originally in connection with a ci between the l A and 2 A states found earlier in computed potential energy surfaces for C2H in symmetry [278]. Similar ci s appear between the potential surfaces of the two lowest excited states A2 and B2 iit H2S or of 82 and A in Al—H2 within C2v symmetry [283]. A further, closely spaced pair of ci s has also been found between the 3 A and 4 A states of the molecule C2H. Here the separation between the twins varies with the assumed C—C separation, and they can be brought into coincidence at some separation [282]. [Pg.130]

An example that is closely related to organic photochemishy is the x e case [70]. A doubly degenerate E term is the ground or excited state of any polyatomic system that has at least one axis of symmetry of not less than third order. It may be shown [70] that if the quadratic tenn in Eq, (17) is neglected, the potential surface becomes a moat around the degeneracy, sometimes called Mexican hat, The polar coordinates p and <(>, shown in Figure 20, can be used to write an expression for the energy ... [Pg.356]

The phase-change nale, also known as the Ben phase [101], the geometric phase effect [102,103] or the molecular Aharonov-Bohm effect [104-106], was used by several authors to verify that two near-by surfaces actually cross, and are not repelled apart. This point is of particular relevance for states of the same symmetry. The total electronic wave function and the total nuclear wave function of both the upper and the lower states change their phases upon being bansported in a closed loop around a point of conical intersection. Any one of them may be used in the search for degeneracies. [Pg.382]

Recall that the symmetry labels e and o refer to the symmetries of the orbitals under reflection through the one Cy plane that is preserved throughout the proposed disrotatory closing. Low-energy configurations (assuming one is interested in the thermal or low-lying photochemically excited-state reactivity of this system) for the reactant molecule and their overall space and spin symmetry are as follows ... [Pg.292]

The symmetry coefficient = —P d nk/dAE is usually close to j, in agreement with the Marcus formula. Turning to the quantum limit, one observes that the barrier transparency increases with increasing AE as a result of barrier lowering, as well as of a decrease of its width. Therefore, k grows faster than the Arrhenius rate constant. At 7 = 0... [Pg.31]

See other pages where Closed symmetry is mentioned: [Pg.741]    [Pg.1380]    [Pg.1771]    [Pg.2411]    [Pg.2412]    [Pg.2589]    [Pg.4]    [Pg.138]    [Pg.355]    [Pg.361]    [Pg.382]    [Pg.491]    [Pg.495]    [Pg.559]    [Pg.590]    [Pg.140]    [Pg.139]    [Pg.158]    [Pg.176]    [Pg.187]    [Pg.265]    [Pg.265]    [Pg.272]    [Pg.597]    [Pg.175]    [Pg.217]    [Pg.1291]    [Pg.196]    [Pg.142]    [Pg.433]    [Pg.406]    [Pg.507]    [Pg.234]    [Pg.343]    [Pg.168]    [Pg.171]    [Pg.26]    [Pg.124]    [Pg.71]    [Pg.100]   
See also in sourсe #XX -- [ Pg.66 ]



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