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Hauptverfasser: Tarasevich, Ekaterina, Gladush, Maxim
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2411.09544
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author Tarasevich, Ekaterina
Gladush, Maxim
author_facet Tarasevich, Ekaterina
Gladush, Maxim
contents Theoretical methods based on the density matrix are powerful tools to describe open quantum systems. However, such methods are complicated and intricate to be used analytically. Here we present an object-oriented framework for constructing the equation of motion of the correlation matrix at a given order in the quantum chain of BBGKY hierarchy used to describe the interaction of many-particle systems. The algorithm of machine derivation of equations includes the implementation of the principles of quantum mechanics and operator algebra. It is based on the description and use of classes in the Python programming environment. Class objects correspond to the elements of the equations that are derived: density matrix, correlation matrix, energy operators, commutator and several operators indexing systems. The program contains a special class that allows one to define a statistical ensemble with an infinite number of subsystems. For all classes, methods implementing the actions of the operator algebra are specified. The number of subsystems of the statistical ensemble for the physical problem and the types of subsystems between which pairwise interactions are possible are specified as an input data. It is shown that this framework allows one to derive the equations of motion of the fourth-order correlation matrix in less than a minute.
format Preprint
id arxiv_https___arxiv_org_abs_2411_09544
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Capabilities of object-oriented programming for the construction of quantum-kinetic BBGKY equations of high orders
Tarasevich, Ekaterina
Gladush, Maxim
Quantum Physics
Theoretical methods based on the density matrix are powerful tools to describe open quantum systems. However, such methods are complicated and intricate to be used analytically. Here we present an object-oriented framework for constructing the equation of motion of the correlation matrix at a given order in the quantum chain of BBGKY hierarchy used to describe the interaction of many-particle systems. The algorithm of machine derivation of equations includes the implementation of the principles of quantum mechanics and operator algebra. It is based on the description and use of classes in the Python programming environment. Class objects correspond to the elements of the equations that are derived: density matrix, correlation matrix, energy operators, commutator and several operators indexing systems. The program contains a special class that allows one to define a statistical ensemble with an infinite number of subsystems. For all classes, methods implementing the actions of the operator algebra are specified. The number of subsystems of the statistical ensemble for the physical problem and the types of subsystems between which pairwise interactions are possible are specified as an input data. It is shown that this framework allows one to derive the equations of motion of the fourth-order correlation matrix in less than a minute.
title Capabilities of object-oriented programming for the construction of quantum-kinetic BBGKY equations of high orders
topic Quantum Physics
url https://arxiv.org/abs/2411.09544