Rigid top propagator: Difference between revisions

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For a rigid three dimensional asymmetric top the kernel is given by (^[1][2]) (Eq. 15) ):${\displaystyle \rho _{\mathrm {rot} }^{t,t+1}(\beta /P)=\sum _{J=0}^{\infty }\sum _{M=-J}^{J}\sum _{{\hat {K}}=-J}^{J}\left({\frac {2J+1}{8\pi ^{2}}}\right)A_{{\hat {K}}M}^{(JM)}\exp \left(-{\frac {\beta }{P}}E_{\hat {K}}^{(JM)}\right)\sum _{K=-J}^{J}A_{{\hat {K}}K}^{(JM)}d_{MK}^{J}({\tilde {\theta }}^{t+1})\cos(M{\tilde {\phi }}^{t+1}+K{\tilde {\chi }}^{t+1})}$

The contribution to the rotational energy of the interactions between beads ${\displaystyle t}$ and ${\displaystyle t+1}$ is given by (Eq. 16):

${\displaystyle e_{rot}^{t,t+1}={\frac {1}{\rho _{\mathrm {rot} }^{t,t+1}}}\sum _{JM{\hat {K}}}\left({\frac {2J+1}{8\pi ^{2}}}\right)A_{{\hat {K}}M}^{(JM)}E_{\hat {K}}^{(JM)}\exp \left(-{\frac {\beta }{P}}E_{\hat {K}}^{(JM)}\right)\sum _{K}A_{{\hat {K}}K}^{(JM)}d_{MK}^{J}({\tilde {\theta }}^{t+1})\cos(M{\tilde {\phi }}^{t+1}+K{\tilde {\chi }}^{t+1})}$

References[edit]

Related reading

• Carl McBride, Eva G. Noya, and Carlos Vega "A computer program to evaluate the NVM propagator for rigid asymmetric tops for use in path integral simulations of rigid bodies", Computer Physics Communications (In Press)(2012) (computer code)