TY - JOUR
T1 - High-magnetic-field X-ray absorption and magnetic circular dichroism spectroscopy in the mixed-valent compound YbAgCu4
AU - Nakamura, Toshiyuki
AU - Matsuda, Yasuhiro H.
AU - Her, Jim Long
AU - Kindo, Koichi
AU - Michimura, Shinji
AU - Inami, Toshiya
AU - Mizumaki, Masaichiro
AU - Kawamura, Naomi
AU - Suzuki, Motohiro
AU - Chen, Bin
AU - Ohta, Hiroto
AU - Yoshimura, Kazuyoshi
AU - Kotani, Akio
PY - 2012/11
Y1 - 2012/11
N2 - The X-ray absorption and magnetic circular dichroism (XMCD) spectra at the L3 edge of Yb have been studied experimentally as well as theoretically in the mixed-valent heavy fermion compound YbAgCu4 at high magnetic fields and low temperatures. It has been found that the absorption spectra depend on the temperature as well as the magnetic field, suggesting a significant change in valence with the temperature and magnetic field. The magnetic field-temperature (H-T) phase boundary determined by the valence state is in very good agreement with that determined by the magnetization. It is clearly found that the metamagnetism of this compound is due to the field-induced valence transition. A distinct positive peak of the XMCD spectra appears in the vicinity of the white line of the absorption due to the Yb 3+ state, while no feature is observed in the XMCD spectra corresponding to the Yb2+ state. On the other hand, a small negative XMCD peak was observed at a lower energy and the magnetic field dependence of the negative XMCD intensity was found to be qualitatively different from that of the main XMCD signal near the white line. By theoretical calculation, the quadrupole transition is found to explain the energy position and its peculiar magnetic field dependence.
AB - The X-ray absorption and magnetic circular dichroism (XMCD) spectra at the L3 edge of Yb have been studied experimentally as well as theoretically in the mixed-valent heavy fermion compound YbAgCu4 at high magnetic fields and low temperatures. It has been found that the absorption spectra depend on the temperature as well as the magnetic field, suggesting a significant change in valence with the temperature and magnetic field. The magnetic field-temperature (H-T) phase boundary determined by the valence state is in very good agreement with that determined by the magnetization. It is clearly found that the metamagnetism of this compound is due to the field-induced valence transition. A distinct positive peak of the XMCD spectra appears in the vicinity of the white line of the absorption due to the Yb 3+ state, while no feature is observed in the XMCD spectra corresponding to the Yb2+ state. On the other hand, a small negative XMCD peak was observed at a lower energy and the magnetic field dependence of the negative XMCD intensity was found to be qualitatively different from that of the main XMCD signal near the white line. By theoretical calculation, the quadrupole transition is found to explain the energy position and its peculiar magnetic field dependence.
KW - Heavy fermion
KW - High magnetic fields
KW - Metamagnetism
KW - Synchrotron x-ray absorption
KW - Valence transition
KW - X-ray magnetic circular dichroism
UR - http://www.scopus.com/inward/record.url?scp=84870161021&partnerID=8YFLogxK
U2 - 10.1143/JPSJ.81.114702
DO - 10.1143/JPSJ.81.114702
M3 - 文章
AN - SCOPUS:84870161021
SN - 0031-9015
VL - 81
JO - Journal of the Physical Society of Japan
JF - Journal of the Physical Society of Japan
IS - 11
M1 - 114702
ER -