Possibility of small electron states

Creators: Sebens, Charles T.

Style

An error occurred while generating the citation.

Abstract

Some authors have claimed that there exists a minimum size (on the order of the Compton radius) for electron states composed entirely of positive-frequency solutions to the free Dirac equation. Other authors have put forward counterexamples to such claims. This article asks how the counterexamples of A. J. Bracken and G. F. Melloy [J. Phys. A. 32, 6127 (1999)] bypass two arguments against their possibility. The first is an old argument that, because of the prohibition on faster-than-light motion, the electron must be larger than a certain minimum size if it is to have the correct angular momentum and magnetic moment. This challenge can be addressed by analyzing the flow of energy and charge for the counterexample states. The second argument is an explicit proof (presented in C.-P. Chuu et al. [Solid State Commun. 150, 533 (2010)]) that there is a minimum size for purely positive-frequency electron states. This proof hinges on the assumption of a small spread in momentum space, which is violated by the counterexamples that have been put forward.

Additional Information

© 2020 American Physical Society. Received 11 August 2020; revised 29 October 2020; accepted 2 November 2020; published 30 November 2020. I thank Logan McCarty for bringing the papers by Bracken, Flohr, and Melloy to my attention. I also thank Jacob Barandes, Noel Swanson, and the anonymous reviewers for helpful feedback and discussion.

Attached Files

Published - PhysRevA.102.052225.pdf

Submitted - 2010.16255.pdf

Files

PhysRevA.102.052225.pdf

Files (1.1 MB)

Name	Size	Download all
PhysRevA.102.052225.pdf md5:6b232fee149f500e3afe60cfe2ad92fb	356.3 kB	Preview Download
2010.16255.pdf md5:3447571d731d818b33ee64e8291f463e	761.7 kB	Preview Download

Additional details

	All versions	This version
Views	0	0
Downloads	0	0
Data volume	0 Bytes	0 Bytes