PATH INTEGRAL QUANTIZATION OF DISSIPATIVE SYSTEMS

Authors

  • Eyad H. Hasan Applied Physics Department, Faculty of science, Tafila Technical University, Tafila, Jordan
  • Ola A. Jarab'ah Applied Physics Department, Faculty of science, Tafila Technical University, Tafila, Jordan
  • Khaled I. Nawafleh Mu'tah University, Al-Karak, Jordan

DOI:

https://doi.org/10.19044/esj.2014.v10n15p%25p

Abstract

This paper investigated the basic formalism for treating the dissipative Hamiltonian systems within the framework of the canonical method using the path integral quantization. The Hamiltonian treatment of the dissipative systems leads to obtain the equations of motion as a total differential equation in many variables which require the investigation of integrability conditions on the action and the equations of motion. In this formalism, the action integral for dissipative systems is obtained from equations of motion and written in phase space. Besides, the quantization of these systems is investigated using the action to construct the wave function in terms of the canonical phase space coordinates. Two examples are examined, the free particle and the simple harmonic oscillator.

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Published

2014-05-30

How to Cite

Hasan, E. H., Jarab’ah, O. A., & Nawafleh, K. I. (2014). PATH INTEGRAL QUANTIZATION OF DISSIPATIVE SYSTEMS. European Scientific Journal, ESJ, 10(15). https://doi.org/10.19044/esj.2014.v10n15p%p

Issue

Vol. 10 No. 15 (2014): ESJ May Edition

Section

Articles

License

This work is licensed under a Creative Commons Attribution 4.0 International License.