Kinematics of Electrons in the Volume of a Planar Vacuum Diode

Dimitar G. Stoyanov

arXiv:1112.2914·physics.gen-ph·December 14, 2011

Kinematics of Electrons in the Volume of a Planar Vacuum Diode

Dimitar G. Stoyanov

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TL;DR

This paper derives the laws governing electron motion in a planar vacuum diode, introduces boundary conditions for current variation, and proposes a new solution addressing diode self-clogging phenomena.

Contribution

It presents new kinematic laws, boundary conditions, and a novel solution for diode self-clogging, advancing understanding of electron behavior in vacuum diodes.

Findings

01

Derived kinematic laws of electron motion

02

Established boundary conditions for current change

03

Proposed a new solution for diode self-clogging

Abstract

The kinematics laws of electrons motion in the volume of planar vacuum diode are obtained. The physically acceptable initial and boundary conditions for the regime of changing of current are presented. A new solution allowing diode self-clogging is suggested.

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Taxonomy

TopicsGyrotron and Vacuum Electronics Research · Pulsed Power Technology Applications · Plasma Diagnostics and Applications