THE USE OF PRECISE SCHOTTKY DATA IN THE ANALYSIS OF THE METAL-VACCUM SURFACE BARRIER FOR THERMIONIC EMITTERS: I-RHENIUM,

Abstract

The Schottky effect in thermionic emission carried to the second order is equivalent to an electron Fabry-Perot interferometer which may be used to investigate the physics of the emitter surface. This method has been used in a precise experimental determination of the Herring-Nichols surface-reflection coefficient mu from periodic deviations in the thermionic Schottky effect for rhenium. The value of mu=0.29 exp(i0.42) is in good agreement with a Sommerfeld box model in which the valence electrons of the atoms near the metallic surface are assumed to be free. It is suggested that this high density of Sommerfeld electrons at the emitter, resulting from radical modifications in the energy-level system as the surface is approached from deep in the crystal, associates with the dependence of work function on crystallographic direction and details of surface atomic structure. (Author)

Document Details

Document Type
Technical Report
Publication Date
Feb 28, 1967
Accession Number
AD0651232

Entities

People

  • E. A. Coomes
  • I. J. D'haenens

Organizations

  • University of Notre Dame

Tags

DTIC Thesaurus Topics

  • Agreements
  • Atomic Structure
  • Atoms
  • Coefficients
  • Electrons
  • Emission
  • Emitters
  • Energy Levels
  • Fabry Perot Interferometers
  • High Density
  • Interferometers
  • Physics
  • Reflection
  • Thermionic Emission
  • Work Functions

Fields of Study

  • Materials science
  • Physics

Readers

  • Materials Science and Engineering.
  • Plasma Physics.
  • Quantum spin resonance or Electron Paramagnetic Resonance spectroscopy.

Technology Areas

  • Microelectronics
  • Microelectronics - Graphene