A supersonic crowdion in mica: Ultradiscrete kinks with energy between
  $^{40}$K recoil and transmission sputtering

A Milchev; AM Kosevich; AV Savin; D Schlößer; DR Collins; DW Engelkemeir; FM Russell; FM Russell; FM Russell; FM Russell; FM Russell; G Friesecke; J Pradler; JA Cameron; JW Steeds; M Diaz; O Gedeon; PB Price; R Fleischer; SA Durrani; VV Sinev; Y Kudriavtsev; Y Zolotaryuk

research

A supersonic crowdion in mica: Ultradiscrete kinks with energy between $^{40}$ K recoil and transmission sputtering

Authors: A Milchev
AM Kosevich
AV Savin
D Schlößer
DR Collins
DW Engelkemeir
FM Russell
FM Russell
FM Russell
FM Russell
FM Russell
G Friesecke
J Pradler
JA Cameron
JW Steeds
M Diaz
O Gedeon
PB Price
R Fleischer
SA Durrani
VV Sinev
Y Kudriavtsev
Y Zolotaryuk
Publication date: 1 January 2015
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

In this chapter we analyze in detail the behaviour and properties of the kinks found in an one dimensional model for the close packed rows of potassium ions in mica muscovite. The model includes realistic potentials obtained from the physics of the problem, ion bombardment experiments and molecular dynamics fitted to experiments. These kinks are supersonic and have an unique velocity and energy. They are ultradiscrete involving the translation of an interstitial ion, which is the reason they are called 'crowdions'. Their energy is below the most probable source of energy, the decay of the

^{40}

K isotope and above the energy needed to eject an atom from the mineral, a phenomenon that has been observed experimentallyComment: 28 pages, 15 figure