X-ray scattering study of temperature dependence of a structural incommensurability of the {omega} phase in Ti-V alloys

The incommensurate {omega} phase in titanium alloys has been revisited. A mechanism of the formation relevant to electron-lattice coupling has been re-investigated in terms of an x-ray-scattering technique on three kinds of single crystals, each containing 20, 24, and 27 mass % of vanadium respectiv...

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Veröffentlicht in:	Physical review. B, Condensed matter and materials physics Condensed matter and materials physics, 2005-11, Vol.72 (17)
1. Verfasser:	Takesue, Naohisa
Format:	Artikel
Sprache:	eng
Schlagworte:	CHARGE DENSITY CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY COUPLING DISTRIBUTION ELECTRONS MOLECULAR ORBITAL METHOD MONOCRYSTALS REFLECTION SUPERLATTICES TEMPERATURE DEPENDENCE TITANIUM ALLOYS VALENCE VANADIUM VANADIUM ALLOYS WAVE FUNCTIONS X-RAY DIFFRACTION
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container_title	Physical review. B, Condensed matter and materials physics
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creator	Takesue, Naohisa
description	The incommensurate {omega} phase in titanium alloys has been revisited. A mechanism of the formation relevant to electron-lattice coupling has been re-investigated in terms of an x-ray-scattering technique on three kinds of single crystals, each containing 20, 24, and 27 mass % of vanadium respectively. The superlattice reflections of all systems observed for reduced wave vector q=(2/3+{delta},2/3+{delta},2/3+{delta}) at temperature congruent with 30 K reveal the following three effects for their intensity distribution with increasing temperature, where {delta} has a nonzero value giving the incommensurability: (1) decrease of the intensities (2) increase of the distribution widths, and (3) reduction of the {delta} values. The results suggest unstabilization of the lock-in state. A temperature region which indicates a notion of the transition is lowered with increasing concentration, implying excess of the valence electrons which prohibits lock-in nesting of the charge density wave. This idea was supported by molecular-orbital population analysis using cluster models of the two phases.
doi_str_mv	10.1103/PhysRevB.72.174210
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A mechanism of the formation relevant to electron-lattice coupling has been re-investigated in terms of an x-ray-scattering technique on three kinds of single crystals, each containing 20, 24, and 27 mass % of vanadium respectively. The superlattice reflections of all systems observed for reduced wave vector q=(2/3+{delta},2/3+{delta},2/3+{delta}) at temperature congruent with 30 K reveal the following three effects for their intensity distribution with increasing temperature, where {delta} has a nonzero value giving the incommensurability: (1) decrease of the intensities (2) increase of the distribution widths, and (3) reduction of the {delta} values. The results suggest unstabilization of the lock-in state. A temperature region which indicates a notion of the transition is lowered with increasing concentration, implying excess of the valence electrons which prohibits lock-in nesting of the charge density wave. 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The superlattice reflections of all systems observed for reduced wave vector q=(2/3+{delta},2/3+{delta},2/3+{delta}) at temperature congruent with 30 K reveal the following three effects for their intensity distribution with increasing temperature, where {delta} has a nonzero value giving the incommensurability: (1) decrease of the intensities (2) increase of the distribution widths, and (3) reduction of the {delta} values. The results suggest unstabilization of the lock-in state. A temperature region which indicates a notion of the transition is lowered with increasing concentration, implying excess of the valence electrons which prohibits lock-in nesting of the charge density wave. This idea was supported by molecular-orbital population analysis using cluster models of the two phases.</abstract><cop>United States</cop><doi>10.1103/PhysRevB.72.174210</doi></addata></record>
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subjects	CHARGE DENSITY CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY COUPLING DISTRIBUTION ELECTRONS MOLECULAR ORBITAL METHOD MONOCRYSTALS REFLECTION SUPERLATTICES TEMPERATURE DEPENDENCE TITANIUM ALLOYS VALENCE VANADIUM VANADIUM ALLOYS WAVE FUNCTIONS X-RAY DIFFRACTION
title	X-ray scattering study of temperature dependence of a structural incommensurability of the {omega} phase in Ti-V alloys
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