LATTICE ANISOTROPY IN ANTIFERROMAGNETIC CHROMIUM

Thermal expansion and magnetostriction measurements on single-Q, single crystal chromium give the lattice parameter ratios in the transverse spin-density-wave phase, through the spin-flip transition, and in the longitudinal spin-density-wave phase. The spin-flip transition is found to be accompanied...

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Hauptverfasser:	Steinitz,M. O, Schwartz,L. H, Marcus,J. A, Fawcett,E, Reed,W. A
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Sprache:	eng
Schlagworte:	ANISOTROPY ANTIFERROMAGNETISM CHROMIUM CRYOGENICS CRYSTAL LATTICES Crystallography LATTICE PARAMETERS MAGNETIC FIELDS MAGNETOSTRICTION SINGLE CRYSTALS THERMAL EXPANSION
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creator	Steinitz,M. O Schwartz,L. H Marcus,J. A Fawcett,E Reed,W. A
description	Thermal expansion and magnetostriction measurements on single-Q, single crystal chromium give the lattice parameter ratios in the transverse spin-density-wave phase, through the spin-flip transition, and in the longitudinal spin-density-wave phase. The spin-flip transition is found to be accompanied by anisotropic discontinuities in length, resulting in a net volume dilatation of 0.0000014 with decreasing temperature. The Q direction is found to be the longest axis at 300 degrees K and to become the shortest axis below about 220 degrees K. (Author) Prepared in cooperation with Bell Telephone Labs., Inc., Murray Hill, N. J. Sponsored in part by Advanced Research Projects Agency, Washington, D. C. and National Science Foundation, Washington, D. C.
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The spin-flip transition is found to be accompanied by anisotropic discontinuities in length, resulting in a net volume dilatation of 0.0000014 with decreasing temperature. The Q direction is found to be the longest axis at 300 degrees K and to become the shortest axis below about 220 degrees K. (Author) Prepared in cooperation with Bell Telephone Labs., Inc., Murray Hill, N. J. Sponsored in part by Advanced Research Projects Agency, Washington, D. C. and National Science Foundation, Washington, D. C.</abstract><oa>free_for_read</oa></addata></record>
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subjects	ANISOTROPY ANTIFERROMAGNETISM CHROMIUM CRYOGENICS CRYSTAL LATTICES Crystallography LATTICE PARAMETERS MAGNETIC FIELDS MAGNETOSTRICTION SINGLE CRYSTALS THERMAL EXPANSION
title	LATTICE ANISOTROPY IN ANTIFERROMAGNETIC CHROMIUM
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