Spontaneous magnetization of aluminum nanowires deposited on the
  NaCl(100) surface

A. Ayuela; A. Dallmeyer; A.L. Glebov; C. Pampuch; D. Fuks; D. Vanderbilt; D.I. Bazhanov; D.M. Eigler; G. Kresse; G. Kresse; G. Makov; G. Rubio; G.P. Lopinski; H. Mehrez; H. Raebiger; H.J. Monkhorst; H.W. Yeom; J. Neugebauer; J.P. Perdew; L. Pleth Nielsen; M. J. Puska; N. Zabala; N. Zabala; P. Gambardella; P. Segovia; R. Losio; R. M. Nieminen; S. Okada; S. Watanabe; S. Watanabe; S.J. Koh; T.C. Shen

research

Spontaneous magnetization of aluminum nanowires deposited on the NaCl(100) surface

Authors: A. Ayuela
A. Dallmeyer
A.L. Glebov
C. Pampuch
D. Fuks
D. Vanderbilt
D.I. Bazhanov
D.M. Eigler
G. Kresse
G. Kresse
G. Makov
G. Rubio
G.P. Lopinski
H. Mehrez
H. Raebiger
H.J. Monkhorst
H.W. Yeom
J. Neugebauer
J.P. Perdew
L. Pleth Nielsen
M. J. Puska
N. Zabala
N. Zabala
P. Gambardella
P. Segovia
R. Losio
R. M. Nieminen
S. Okada
S. Watanabe
S. Watanabe
S.J. Koh
T.C. Shen
Publication date: 19 March 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We investigate electronic structures of Al quantum wires, both unsupported and supported on the (100) NaCl surface, using the density-functional theory. We confirm that unsupported nanowires, constrained to be linear, show magnetization when elongated beyond the equilibrium length. Allowing ions to relax, the wires deform to zig-zag structures with lower magnetization but no dimerization occurs. When an Al wire is deposited on the NaCl surface, a zig-zag geometry emerges again. The magnetization changes moderately from that for the corresponding unsupported wire. We analyse the findings using electron band structures and simple model wires.Comment: submitted to PHys. Rev.