Antiferro-quadrupole resonance in CeB6

S.V. Demishev; A.V. Semeno; A.V.Bogach; Yu.B. Paderno; N.Yu.; Shitsevalova; N.E. Sluchanko

arXiv:cond-mat/0507363·cond-mat.str-el·November 11, 2009

Antiferro-quadrupole resonance in CeB6

S.V. Demishev, A.V. Semeno, A.V.Bogach, Yu.B. Paderno, N.Yu., Shitsevalova, N.E. Sluchanko

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TL;DR

This paper reports the discovery of a new magnetic resonance mode in CeB6 caused by orbital ordering, observed via cavity measurements across a phase boundary, revealing insights into strongly correlated electronic systems.

Contribution

It presents the first experimental observation of a magnetic resonance linked to orbital ordering in CeB6, expanding understanding of phase transitions in correlated materials.

Findings

01

Detection of a gapless magnetic resonance mode with g-factor 1.62

02

Resonance appears below the phase boundary TQ(B)

03

Resonance linked to orbital ordering transition

Abstract

We report experimental observation of a new type of magnetic resonance caused by orbital ordering in a strongly correlated electronic system. Cavity measurements performed on CeB6 single crystals in a frequency range 60-100 GHz show that a crossing of the phase boundary TQ(B) between the antiferro-quadrupole and paramagnetic phases gives rise to development at T <TQ(B) of a magnetic resonance. The observed mode is gapless and correspond to g-factor 1.62.

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