Statistical physics of the symmetric group

Physical Review. E
Mobolaji Williams

Abstract

Ordered chains (such as chains of amino acids) are ubiquitous in biological cells, and these chains perform specific functions contingent on the sequence of their components. Using the existence and general properties of such sequences as a theoretical motivation, we study the statistical physics of systems whose state space is defined by the possible permutations of an ordered list, i.e., the symmetric group, and whose energy is a function of how certain permutations deviate from some chosen correct ordering. Such a nonfactorizable state space is quite different from the state spaces typically considered in statistical physics systems and consequently has novel behavior in systems with interacting and even noninteracting Hamiltonians. Various parameter choices of a mean-field model reveal the system to contain five different physical regimes defined by two transition temperatures, a triple point, and a quadruple point. Finally, we conclude by discussing how the general analysis can be extended to state spaces with more complex combinatorial properties and to other standard questions of statistical mechanics models.

References

Nov 1, 1993·Protein Engineering·E I Shakhnovich, A M Gutin
Aug 1, 1993·Proceedings of the National Academy of Sciences of the United States of America·E I Shakhnovich, A M Gutin
Jan 1, 1996·Folding & Design·M P Morrissey, E I Shakhnovich
Jun 18, 1998·Folding & Design·E I Shakhnovich

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Citations

Feb 17, 2018·Physical Review. E·Mobolaji Williams

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