Magnetic field dependence of the neutron spin resonance in CeB6

P. Y. Portnichenko; S. V. Demishev; A. V. Semeno; H. Ohta; A. S. Cameron; M. A. Surmach; H. Jang; G. Friemel; A. V. Dukhnenko; N. Yu Shitsevalova; V. B. Filipov; A. Schneidewind; J. Ollivier; A. Podlesnyak; D. S. Inosov

doi:10.1103/PhysRevB.94.035114

Magnetic field dependence of the neutron spin resonance in CeB6

P. Y. Portnichenko, S. V. Demishev, A. V. Semeno, H. Ohta, A. S. Cameron, M. A. Surmach, H. Jang, G. Friemel, A. V. Dukhnenko, N. Yu Shitsevalova, V. B. Filipov, A. Schneidewind, J. Ollivier, A. Podlesnyak, D. S. Inosov

Direct Geometry

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Abstract

In zero magnetic field, the famous neutron spin resonance in the f-electron superconductor CeCoIn5 is similar to the recently discovered exciton peak in the nonsuperconducting CeB6. A magnetic field splits the resonance in CeCoIn5 into two components, indicating that it is a doublet. Here we employ inelastic neutron scattering (INS) to scrutinize the field dependence of spin fluctuations in CeB6. The exciton shows a markedly different behavior without any field splitting. Instead, we observe a second field-induced magnon whose energy increases with field. At the ferromagnetic zone center, however, we find only a single mode with a nonmonotonic field dependence. At low fields, it is initially suppressed to zero together with the antiferromagnetic order parameter, but then reappears at higher fields inside the hidden-order phase, following the energy of an electron spin resonance (ESR). This is a unique example of a ferromagnetic resonance in a heavy-fermion metal seen by both ESR and INS consistently over a broad range of magnetic fields.

Original language	English
Article number	035114
Journal	Physical Review B
Volume	94
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevB.94.035114
State	Published - Jul 6 2016

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Portnichenko, P. Y., Demishev, S. V., Semeno, A. V., Ohta, H., Cameron, A. S., Surmach, M. A., Jang, H., Friemel, G., Dukhnenko, A. V., Shitsevalova, N. Y., Filipov, V. B., Schneidewind, A., Ollivier, J., Podlesnyak, A., & Inosov, D. S. (2016). Magnetic field dependence of the neutron spin resonance in CeB6. Physical Review B, 94(3), Article 035114. https://doi.org/10.1103/PhysRevB.94.035114

@article{55e755f349d24bb684e912b48293f40e,

title = "Magnetic field dependence of the neutron spin resonance in CeB6",

abstract = "In zero magnetic field, the famous neutron spin resonance in the f-electron superconductor CeCoIn5 is similar to the recently discovered exciton peak in the nonsuperconducting CeB6. A magnetic field splits the resonance in CeCoIn5 into two components, indicating that it is a doublet. Here we employ inelastic neutron scattering (INS) to scrutinize the field dependence of spin fluctuations in CeB6. The exciton shows a markedly different behavior without any field splitting. Instead, we observe a second field-induced magnon whose energy increases with field. At the ferromagnetic zone center, however, we find only a single mode with a nonmonotonic field dependence. At low fields, it is initially suppressed to zero together with the antiferromagnetic order parameter, but then reappears at higher fields inside the hidden-order phase, following the energy of an electron spin resonance (ESR). This is a unique example of a ferromagnetic resonance in a heavy-fermion metal seen by both ESR and INS consistently over a broad range of magnetic fields.",

author = "Portnichenko, \{P. Y.\} and Demishev, \{S. V.\} and Semeno, \{A. V.\} and H. Ohta and Cameron, \{A. S.\} and Surmach, \{M. A.\} and H. Jang and G. Friemel and Dukhnenko, \{A. V.\} and Shitsevalova, \{N. Yu\} and Filipov, \{V. B.\} and A. Schneidewind and J. Ollivier and A. Podlesnyak and Inosov, \{D. S.\}",

note = "Publisher Copyright: {\textcopyright} 2016 American Physical Society.",

year = "2016",

month = jul,

day = "6",

doi = "10.1103/PhysRevB.94.035114",

language = "English",

volume = "94",

journal = "Physical Review B",

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T1 - Magnetic field dependence of the neutron spin resonance in CeB6

AU - Portnichenko, P. Y.

AU - Demishev, S. V.

AU - Semeno, A. V.

AU - Ohta, H.

AU - Cameron, A. S.

AU - Surmach, M. A.

AU - Jang, H.

AU - Friemel, G.

AU - Dukhnenko, A. V.

AU - Shitsevalova, N. Yu

AU - Filipov, V. B.

AU - Schneidewind, A.

AU - Ollivier, J.

AU - Podlesnyak, A.

AU - Inosov, D. S.

PY - 2016/7/6

Y1 - 2016/7/6

N2 - In zero magnetic field, the famous neutron spin resonance in the f-electron superconductor CeCoIn5 is similar to the recently discovered exciton peak in the nonsuperconducting CeB6. A magnetic field splits the resonance in CeCoIn5 into two components, indicating that it is a doublet. Here we employ inelastic neutron scattering (INS) to scrutinize the field dependence of spin fluctuations in CeB6. The exciton shows a markedly different behavior without any field splitting. Instead, we observe a second field-induced magnon whose energy increases with field. At the ferromagnetic zone center, however, we find only a single mode with a nonmonotonic field dependence. At low fields, it is initially suppressed to zero together with the antiferromagnetic order parameter, but then reappears at higher fields inside the hidden-order phase, following the energy of an electron spin resonance (ESR). This is a unique example of a ferromagnetic resonance in a heavy-fermion metal seen by both ESR and INS consistently over a broad range of magnetic fields.

AB - In zero magnetic field, the famous neutron spin resonance in the f-electron superconductor CeCoIn5 is similar to the recently discovered exciton peak in the nonsuperconducting CeB6. A magnetic field splits the resonance in CeCoIn5 into two components, indicating that it is a doublet. Here we employ inelastic neutron scattering (INS) to scrutinize the field dependence of spin fluctuations in CeB6. The exciton shows a markedly different behavior without any field splitting. Instead, we observe a second field-induced magnon whose energy increases with field. At the ferromagnetic zone center, however, we find only a single mode with a nonmonotonic field dependence. At low fields, it is initially suppressed to zero together with the antiferromagnetic order parameter, but then reappears at higher fields inside the hidden-order phase, following the energy of an electron spin resonance (ESR). This is a unique example of a ferromagnetic resonance in a heavy-fermion metal seen by both ESR and INS consistently over a broad range of magnetic fields.

UR - https://www.scopus.com/pages/publications/84978431665

U2 - 10.1103/PhysRevB.94.035114

DO - 10.1103/PhysRevB.94.035114

M3 - Article

AN - SCOPUS:84978431665

SN - 2469-9950

VL - 94

JO - Physical Review B

JF - Physical Review B

IS - 3

M1 - 035114

ER -

Magnetic field dependence of the neutron spin resonance in CeB6

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