9.1.2 Data

Chapter Concepts

Substances / Molecular Formulas	Cu (100); Er(0001); Er(0110); Ir(100); Ir(110); Ir(111); Nb(100); Ni (110); Ni(100); Ni(111); Ni(113); Ni(133); Pt(100); Pt(110); Pt(113); Pt(133); Re(0001); Re(0110); Re(0111); Re(1010); Rh(100); Rh(110); Rh(111); Rh(113); Rh(133); Ta(110); W (100); W (110); W(012); W(013); W(111); W(112); W(116); W(122); W(123); W(233)
Element Systems	Cu; Cu (Copper); Er; Er (Erbium); Ir; Ir (Iridium); Nb; Nb (Niobium); Ni; Ni (Nickel); Pt; Pt (Platinum); Re; Re (Rhenium); Rh; Rh (Rhodium); Ta; Ta (Tantalum); W; W (Tungsten)
Properties	crystal structure; field emission work function; lattice parameter; photoemission spectrum; radiation; scanning tunneling microscopy image; surface structure; x-ray diffraction
Keywords	electron tunneling; epitaxial relationships; evaporation field; surface

Source

Title	9.1.2 Data
In	9.1 Field emission, field ionization, and field desorption
Author	G. L. Kelwog
Part of	Landolt-Börnstein - Group III Condensed Matter
	Numerical Data and Functional Relationships in Science and Technology
Volume	24D: Interaction of Radiation with Surfaces and Electron Tunneling
Edited by	G. Chiarotti
Chapter-DOI	10.1007/10119615_59
Book-DOI	10.1007/b51875 (Volume in Bookshelf)

Cite as

RIS-Export	Kelwog, G. L.: 9.1.2 Data. Chiarotti, G. (ed.). SpringerMaterials - The Landolt-Börnstein Database (http://www.springermaterials.com). DOI: 10.1007/10119615_59

Abstract

	9.1.2 Data in '9.1 Field emission, field ionization, and field desorption', part of 'Landolt-Börnstein - Group III Condensed Matter: Numerical Data and Functional Relationships in Science and Technology, Volume 24D: Interaction of Radiation with Surfaces and Electron Tunneling'.
	This chapter provides data of field emission, field ionization, and field desorption of metals. Field emission work functions for various metal surfaces, and activation energies for surface self-diffusion (mass transport) of various metals from field emission measurements are tabulated. Then the chapter tabulates surface diffusion parameters for adsorbates on metal substrates from field emission measurements, and epitaxial relationships determined by field emission microscopy. Tables containing data of best image fields for various imaging gases, surface diffusion parameters determined by field ion microscopy, and experimental evaporation fields for various ions are presented. Relative abundance of cluster ions in laser stimulated field evaporation, and atom-probe composition depth profiles in alloy segregation are listed in the table.

9.1.2 Data in '9.1 Field emission, field ionization, and field desorption', part of 'Landolt-Börnstein - Group III Condensed Matter: Numerical Data and Functional Relationships in Science and Technology, Volume 24D: Interaction of Radiation with Surfaces and Electron Tunneling'.

This chapter provides data of field emission, field ionization, and field desorption of metals. Field emission work functions for various metal surfaces, and activation energies for surface self-diffusion (mass transport) of various metals from field emission measurements are tabulated. Then the chapter tabulates surface diffusion parameters for adsorbates on metal substrates from field emission measurements, and epitaxial relationships determined by field emission microscopy. Tables containing data of best image fields for various imaging gases, surface diffusion parameters determined by field ion microscopy, and experimental evaporation fields for various ions are presented. Relative abundance of cluster ions in laser stimulated field evaporation, and atom-probe composition depth profiles in alloy segregation are listed in the table.

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