Related papers: The Cumulants Expansion Approach: The Good, The Bad and The Ugly

The Cumulants Expansion Approach: The Good, The Bad and The Ugly

URL: http://arxiv.org/abs/2511.20115v1
Date: Tue, 25 Nov 2025 09:37:31 GMT
Title: The Cumulants Expansion Approach: The Good, The Bad and The Ugly
Authors: Johannes Kerber, Helmut Ritsch, Laurin Ostermann,
Abstract summary: Mean field approximation is widely known as the mean field approximation and used routinely throughout quantum physics.<n>We discuss two problems in quantum electrodynamics and quantum information, namely the collective radiative dissipation of a dipole-dipole interacting chain of atoms.<n>We find smooth, convergence behavior, where the approximation performs increasingly better with higher orders.<n>In the latter going beyond mean field turns out useless and, even for small system sizes, we are puzzled by numerically challenging and partly non-physical solutions.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: The configuration space, i.e. the Hilbert space, of compound quantum systems grows exponentially with the number of its subsystems: its dimensionality is given by the product of the dimensions of its constituents. Therefore a full quantum treatment is rarely possible analytically and can be carried out numerically for fairly small systems only. Fortunately, in order to obtain interesting physics, approximations often very well suffice. One of these approximations is given by the cumulants expansion, where expectation values of products of operators are approximated by products of expectation values of said operators, neglecting higher-order correlations. The lowest order of this approximation is widely known as the mean field approximation and used routinely throughout quantum physics. Despite its ubiquitous presence, a general criterion for applicability and convergence properties of higher order cumulants expansions remains to be found. In this paper, we discuss two problems in quantum electrodynamics and quantum information, namely the collective radiative dissipation of a dipole-dipole interacting chain of atoms and the factorization of a bi-prime by annealing in an adiabatic quantum simulator. In the first case we find smooth, convergence behavior, where the approximation performs increasingly better with higher orders, while in the latter going beyond mean field turns out useless and, even for small system sizes, we are puzzled by numerically challenging and partly non-physical solutions.

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