Nuclear Magnetic Resonance Study of the Electronic Structure and Hydrogen Motion in the Random BCC-TaV sub 2 --H(D) System

Nuclear magnetic resonance measurements of the exp 1 H, exp 2 D and exp 51 V spin-lattice relaxation times and Knight shifts in the random bcc-TaV sub 2 H sub x (D sub x ) system (0.1 < = x < = 2.4) have been performed over the temperature range 11-440K. The relaxation data are analysed to obt...

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Veröffentlicht in:	Journal of alloys and compounds 1993-01, Vol.190 (2), p.171-179
Hauptverfasser:	Skripov, A V, Belyaev, M U, Stepanov, A P, Padurets, L N, Sokolova, E I
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container_end_page	179
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container_title	Journal of alloys and compounds
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creator	Skripov, A V Belyaev, M U Stepanov, A P Padurets, L N Sokolova, E I
description	Nuclear magnetic resonance measurements of the exp 1 H, exp 2 D and exp 51 V spin-lattice relaxation times and Knight shifts in the random bcc-TaV sub 2 H sub x (D sub x ) system (0.1 < = x < = 2.4) have been performed over the temperature range 11-440K. The relaxation data are analysed to obtain the parameters of H(D) diffusion, which is governed by a distribution of activation energies. The long-range diffusion of H(D) in bcc-TaV sub 2 H sub x (D sub x ) is found to be much faster than in C15-type TaV sub 2 H sub x (D sub x ) with comparable H(D) contents. For all the studied samples (including those with mixed isotope composition), there is a distinct isotope effect on the average activation energy: E exp D sub a > E exp H sub a . The measured values of the Knight shifts and the electronic (Korringa) contributions to the spin-lattice relaxation rates indicate that the density of d-electron states at the Fermi level decreases with H(D) content.
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The relaxation data are analysed to obtain the parameters of H(D) diffusion, which is governed by a distribution of activation energies. The long-range diffusion of H(D) in bcc-TaV sub 2 H sub x (D sub x ) is found to be much faster than in C15-type TaV sub 2 H sub x (D sub x ) with comparable H(D) contents. For all the studied samples (including those with mixed isotope composition), there is a distinct isotope effect on the average activation energy: E exp D sub a > E exp H sub a . The measured values of the Knight shifts and the electronic (Korringa) contributions to the spin-lattice relaxation rates indicate that the density of d-electron states at the Fermi level decreases with H(D) content.</description><identifier>ISSN: 0925-8388</identifier><language>eng</language><ispartof>Journal of alloys and compounds, 1993-01, Vol.190 (2), p.171-179</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784</link.rule.ids></links><search><creatorcontrib>Skripov, A V</creatorcontrib><creatorcontrib>Belyaev, M U</creatorcontrib><creatorcontrib>Stepanov, A P</creatorcontrib><creatorcontrib>Padurets, L N</creatorcontrib><creatorcontrib>Sokolova, E I</creatorcontrib><title>Nuclear Magnetic Resonance Study of the Electronic Structure and Hydrogen Motion in the Random BCC-TaV sub 2 --H(D) System</title><title>Journal of alloys and compounds</title><description>Nuclear magnetic resonance measurements of the exp 1 H, exp 2 D and exp 51 V spin-lattice relaxation times and Knight shifts in the random bcc-TaV sub 2 H sub x (D sub x ) system (0.1 < = x < = 2.4) have been performed over the temperature range 11-440K. The relaxation data are analysed to obtain the parameters of H(D) diffusion, which is governed by a distribution of activation energies. The long-range diffusion of H(D) in bcc-TaV sub 2 H sub x (D sub x ) is found to be much faster than in C15-type TaV sub 2 H sub x (D sub x ) with comparable H(D) contents. For all the studied samples (including those with mixed isotope composition), there is a distinct isotope effect on the average activation energy: E exp D sub a > E exp H sub a . 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The relaxation data are analysed to obtain the parameters of H(D) diffusion, which is governed by a distribution of activation energies. The long-range diffusion of H(D) in bcc-TaV sub 2 H sub x (D sub x ) is found to be much faster than in C15-type TaV sub 2 H sub x (D sub x ) with comparable H(D) contents. For all the studied samples (including those with mixed isotope composition), there is a distinct isotope effect on the average activation energy: E exp D sub a > E exp H sub a . The measured values of the Knight shifts and the electronic (Korringa) contributions to the spin-lattice relaxation rates indicate that the density of d-electron states at the Fermi level decreases with H(D) content.</abstract></addata></record>
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title	Nuclear Magnetic Resonance Study of the Electronic Structure and Hydrogen Motion in the Random BCC-TaV sub 2 --H(D) System
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