Raman study of the Verwey transition in magnetite at high-pressures and low-temperatures

Lev Gasparov; K.-Y. Choi; G. Guenthrodt; Helmuth Berger; Laszlo Forro; Giorgio Margaritondo; Viktor V. Struzhkin; Russell J. Hemley

Raman study of the Verwey transition in magnetite at high-pressures and low-temperatures

Lev Gasparov
, K.-Y. Choi
, G. Guenthrodt
, Helmuth Berger
, Laszlo Forro
, Giorgio Margaritondo
, Viktor V. Struzhkin
, Russell J. Hemley

Producción científica: Abstract › revisión exhaustiva

Resumen

Recently magnetite (Fe_3O_4) attracted a lot of attention on the account of its charge carriers' strong spin polarization at the Fermi level. As a result, this compound has a potential as candidate material for spintronics. Several research groups attempt to grow high quality films of this compound. At the same time many of the bulk properties of magnetite remain unexplained. In particular, the mechanism of the metal- ``semiconductor'' (Verwey) transition at TV =120K remains puzzling. We report Raman spectra of magnetite that provide several distinct markers of the Verwey transition. This includes new Raman modes in the low temperature phase as well as a singularity in the temperature dependence of the intensity and frequency of the dominant Raman modes. We used these markers to determine the pressure dependence of the Verwey transition. We find that at 20 GPa the TV decreases to 20 K yielding dT_V/dp= -5 K/GPa, a value which is about twice the value predicted by the Coulomb-interaction-only model of the transition.

Idioma original	American English
Estado	Published - mar 2004
Publicado de forma externa	Sí
Evento	American Physical Society Meeting, 2004 - Montreal, Canada Duración: mar 22 2004 → mar 26 2004

Conference

Conference	American Physical Society Meeting, 2004
País/Territorio	Canada
Ciudad	Montreal
Período	3/22/04 → 3/26/04

Disciplines

Condensed Matter Physics
Atomic, Molecular and Optical Physics
Analytical Chemistry

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title = "Raman study of the Verwey transition in magnetite at high-pressures and low-temperatures",

abstract = "Recently magnetite (Fe\_3O\_4) attracted a lot of attention on the account of its charge carriers' strong spin polarization at the Fermi level. As a result, this compound has a potential as candidate material for spintronics. Several research groups attempt to grow high quality films of this compound. At the same time many of the bulk properties of magnetite remain unexplained. In particular, the mechanism of the metal- ``semiconductor'' (Verwey) transition at TV =120K remains puzzling. We report Raman spectra of magnetite that provide several distinct markers of the Verwey transition. This includes new Raman modes in the low temperature phase as well as a singularity in the temperature dependence of the intensity and frequency of the dominant Raman modes. We used these markers to determine the pressure dependence of the Verwey transition. We find that at 20 GPa the TV decreases to 20 K yielding dT\_V/dp= -5 K/GPa, a value which is about twice the value predicted by the Coulomb-interaction-only model of the transition.",

author = "Lev Gasparov and K.-Y. Choi and G. Guenthrodt and Helmuth Berger and Laszlo Forro and Giorgio Margaritondo and Struzhkin, \{Viktor V.\} and Hemley, \{Russell J.\}",

year = "2004",

month = mar,

language = "American English",

note = "American Physical Society Meeting, 2004 ; Conference date: 22-03-2004 Through 26-03-2004",

}

TY - CONF

T1 - Raman study of the Verwey transition in magnetite at high-pressures and low-temperatures

AU - Gasparov, Lev

AU - Choi, K.-Y.

AU - Guenthrodt, G.

AU - Berger, Helmuth

AU - Forro, Laszlo

AU - Margaritondo, Giorgio

AU - Struzhkin, Viktor V.

AU - Hemley, Russell J.

PY - 2004/3

Y1 - 2004/3

N2 - Recently magnetite (Fe_3O_4) attracted a lot of attention on the account of its charge carriers' strong spin polarization at the Fermi level. As a result, this compound has a potential as candidate material for spintronics. Several research groups attempt to grow high quality films of this compound. At the same time many of the bulk properties of magnetite remain unexplained. In particular, the mechanism of the metal- ``semiconductor'' (Verwey) transition at TV =120K remains puzzling. We report Raman spectra of magnetite that provide several distinct markers of the Verwey transition. This includes new Raman modes in the low temperature phase as well as a singularity in the temperature dependence of the intensity and frequency of the dominant Raman modes. We used these markers to determine the pressure dependence of the Verwey transition. We find that at 20 GPa the TV decreases to 20 K yielding dT_V/dp= -5 K/GPa, a value which is about twice the value predicted by the Coulomb-interaction-only model of the transition.

AB - Recently magnetite (Fe_3O_4) attracted a lot of attention on the account of its charge carriers' strong spin polarization at the Fermi level. As a result, this compound has a potential as candidate material for spintronics. Several research groups attempt to grow high quality films of this compound. At the same time many of the bulk properties of magnetite remain unexplained. In particular, the mechanism of the metal- ``semiconductor'' (Verwey) transition at TV =120K remains puzzling. We report Raman spectra of magnetite that provide several distinct markers of the Verwey transition. This includes new Raman modes in the low temperature phase as well as a singularity in the temperature dependence of the intensity and frequency of the dominant Raman modes. We used these markers to determine the pressure dependence of the Verwey transition. We find that at 20 GPa the TV decreases to 20 K yielding dT_V/dp= -5 K/GPa, a value which is about twice the value predicted by the Coulomb-interaction-only model of the transition.

UR - http://adsabs.harvard.edu/abs/2004APS..MARN26008G

M3 - Abstract

T2 - American Physical Society Meeting, 2004

Y2 - 22 March 2004 through 26 March 2004

ER -