The chain of quantum mechanics equations

E.E. Perepelkin; B.I. Sadovnikov; N.G. Inozemtseva

arXiv:1801.03779·physics.gen-ph·January 23, 2018

The chain of quantum mechanics equations

E.E. Perepelkin, B.I. Sadovnikov, N.G. Inozemtseva

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TL;DR

This paper develops a comprehensive chain of quantum mechanics equations that incorporate wave functions depending on multiple derivatives of position, including velocity and acceleration, extending traditional formulations.

Contribution

It introduces a novel framework of quantum equations that account for higher-order derivatives of motion, expanding the scope of quantum mechanical modeling.

Findings

01

Formulation of a new chain of quantum equations including higher derivatives.

02

Potential applications in advanced quantum systems modeling.

03

Extension of wave function dependencies to acceleration and beyond.

Abstract

The chain of quantum mechanics equations is constructed for wave functions depending on coordinate and time as well as on velocity, acceleration and acceleration of higher orders.

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Taxonomy

TopicsComputational Physics and Python Applications · Experimental and Theoretical Physics Studies