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Optimum tunneling paths

The wave function decays most slowly if the system tunnels where the effective barrier is lowest however, the distance over which the decay is operative depends on the tunneling path. Therefore, the optimum tunneling paths involve a compromise between path length and effective potential along the path. As a consequence, the optimum tunneling paths occur on the concave side of the minimum energy path i.e., they cut the corner... [Pg.164]

The potential (6.37) corresponds with the previously discussed projection of the three-dimensional PES V(p,p2,p3) onto the proton coordinate plane (pi,p3), shown in Figure 6.20b. As pointed out by Miller [1983], the bifurcation of reaction path and resulting existence of more than one transition state is a rather common event. This implies that at least one transverse vibration, q in the case at hand, turns into a double-well potential. The instanton analysis of the PES (6.37) was carried out by Benderskii et al. [1991b], The existence of the onedimensional optimum trajectory with q = 0, corresponding to the concerted transfer, is evident. On the other hand, it is clear that in the classical regime, T > Tcl (Tc] is the crossover temperature for stepwise transfer), the transition should be stepwise and occur through one of the saddle points. Therefore, there may exist another characteristic temperature, Tc2, above which there exists two other two-dimensional tunneling paths with smaller action than that of the one-dimensional instanton. It is these trajectories that collapse to the saddle points at T = Tcl. The existence of the second crossover temperature Tc2 for two-proton transfer was noted by Dakhnovskii and Semenov [1989]. [Pg.188]

Calculations using transition state theory (TST) are the subject of an other article (see Transition State Theory). This method gives rate constants for chemical reactions, but cannot normally give the energy resolved or quantum state-to-state detail that is needed for comparison with, for example, the results of molecular beam experiments. Sophisticated versions of transition state theory (that include, for example, variational placement of the transition state, optimum reaction paths for particular mass combinations, and tunneling corrections) have been applied to several reactions including those involving polyatomic molecules. Examples include ... [Pg.2464]

In the light of the path-integral representation, the density matrix p Q-,Q-,p) may be semi-classically represented as oc exp[ —Si(Q )], where Si(Q ) is the Eucledian action on the -periodic trajectory that starts and ends at the point Q and visits the potential minimum Q = 0 for r = 0. The one-dimensional tunneling rate, in turn, is proportional to exp[ —S2(Q-)], where S2 is the action in the barrier for the closed straight trajectory which goes along the line with constant Q. The integral in (4.32) may be evaluated by the method of steepest descents, which leads to an optimum value of Q- = Q. This amounts to minimization of the total action Si -i- S2 over the positions of the bend point Q. ... [Pg.68]

See other pages where Optimum tunneling paths is mentioned: [Pg.232]    [Pg.265]    [Pg.338]    [Pg.842]    [Pg.852]    [Pg.853]    [Pg.856]    [Pg.74]    [Pg.422]    [Pg.44]    [Pg.169]    [Pg.195]    [Pg.195]    [Pg.163]    [Pg.169]    [Pg.232]    [Pg.265]    [Pg.338]    [Pg.842]    [Pg.852]    [Pg.853]    [Pg.856]    [Pg.74]    [Pg.422]    [Pg.44]    [Pg.169]    [Pg.195]    [Pg.195]    [Pg.163]    [Pg.169]    [Pg.35]    [Pg.49]    [Pg.189]    [Pg.228]    [Pg.339]    [Pg.233]    [Pg.35]    [Pg.158]    [Pg.202]    [Pg.168]    [Pg.5896]    [Pg.312]   
See also in sourсe #XX -- [ Pg.164 ]



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