А. В. Грибанов scite author profile

CePt3Si is a novel heavy fermion superconductor, crystallizing in the CePt3B structure as a tetragonally distorted low symmetry variant of the AuCu3 structure type. CePt3Si exhibits antiferromagnetic order at T(N) approximately 2.2 K and enters into a heavy fermion superconducting state at T(c) approximately 0.75 K. Large values of H(')(c2) approximately -8.5 T/K and H(c2)(0) approximately 5 T refer to heavy quasiparticles forming Cooper pairs. Hitherto, CePt3Si is the first heavy fermion superconductor without a center of symmetry.

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Crystal structure of the compounds Ce3Pd20Ge6 and Ce3Pd20Si6

Грибанов

Seropegin

Bodak

1994

Journal of Alloys and Compounds

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Magnetic excitations in EuCu₂(Si_xGe_1−x)₂: from mixed valence towards magnetism

Alekseev¹,

Nemkovski²,

Mignot³

et al. 2012

J. Phys.: Condens. Matter

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We report the inelastic neutron scattering study of spin dynamics in EuCu(2)(Si(x)Ge(1-x))(2) (x = 1, 0.9, 0.75, 0.6), performed in a wide temperature range. At x = 1 the magnetic excitation spectrum was found to be represented by the double-peak structure well below the energy range of the Eu(3+) spin-orbit (SO) excitation (7)F(0)→(7)F(1), so that at least the high-energy spectral component can be assigned to the renormalized SO transition. Change of the Eu valence towards 2 + with increased temperature and/or Ge concentration results in further renormalization (lowering the energy) and gradual suppression of both inelastic peaks in the spectrum, along with developing sizeable quasielastic signal. The origin of the spectral structure and its evolution is discussed in terms of excitonic model for the mixed valence state.

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The ternary system cerium–rhodium–silicon

Lipatov

Грибанов

Grytsiv

et al. 2010

Journal of Solid State Chemistry

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