1983
DOI: 10.1016/0022-5088(83)90156-x
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Intermediate valence state of cerium in CeNi

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Cited by 122 publications
(36 citation statements)
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“…At the experimental values of the lattice parameters we were unable to obtain stable induced moments in our calculations for these compounds. When the external field was «turned off», however, spontaneous spin polarization did not arise in YNi 5 and LaNi 5 systems during the self-consistent calculations of the electronic structure, in agreement with the experimental data [47,[50][51][52][53]. The spontaneous spin polarization found in the calculations of Refs.…”
Section: Magnetic-field-induced Effects In the Electronic Structure Osupporting
confidence: 84%
“…At the experimental values of the lattice parameters we were unable to obtain stable induced moments in our calculations for these compounds. When the external field was «turned off», however, spontaneous spin polarization did not arise in YNi 5 and LaNi 5 systems during the self-consistent calculations of the electronic structure, in agreement with the experimental data [47,[50][51][52][53]. The spontaneous spin polarization found in the calculations of Refs.…”
Section: Magnetic-field-induced Effects In the Electronic Structure Osupporting
confidence: 84%
“…CeNi is categorized as an intermediate valence system with a moderately large electronic specific heat coefficient γ ≈ 65 − 85 mJ/(mol K 2 ) [4,5]. The substitution of Ce atoms for the Gd atoms causes a remarkable change in the magnetic properties, such as the reduction of magnetization, the decrease of ordering temperature, and so on [6], but the contributions to the magnetism from Ni and Ce atoms have not been known yet.…”
Section: Introductionmentioning
confidence: 99%
“…The value of the Sommerfeld coefficient in fcc Pu γ = 65 mJ/(mol K 2 ) [6] is indicative of the moderately heavy fermion or even intermediate valence behaviour. Among Cebase compounds, CeNi has the same value of the linear specific heat coefficient γ [7]. The ground state in this system is a manyparticle non-magnetic singlet.…”
Section: Resultsmentioning
confidence: 97%