Ferroquadrupolar ordering due to the quasi-degenerate quartet in the trigonal chiral structure of DyNi3Ga9

Isao Ishii; Kohki Takezawa; Takuyou Mizuno; Shuhei Kamikawa; Hiroki Ninomiya; Yuji Matsumoto; Shigeo Ohara; Keisuke Mitsumoto; Takashi Suzuki

doi:10.7566/JPSJ.87.013602

Ferroquadrupolar ordering due to the quasi-degenerate quartet in the trigonal chiral structure of DyNi₃Ga₉

Isao Ishii^*, Kohki Takezawa, Takuyou Mizuno, Shuhei Kamikawa, Hiroki Ninomiya, Yuji Matsumoto, Shigeo Ohara, Keisuke Mitsumoto, Takashi Suzuki

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

To clarify the origin of the phase transition at T_N = 10K in the trigonal chiral compound DyNi₃Ga₉, we performed ultrasonic measurements on single-crystalline samples. We found a significant elastic softening of the transverse modulus C₆₆ toward T_N. By analyzing the data using the strain susceptibility, the positive sign of the quadrupole-quadrupole coupling constant for C₆₆ was obtained. These results strongly suggest that ferroquadrupolar ordering will be dominant for the phase transition at T_N. Below T_N, crystal symmetry will lower from the trigonal structure. Elastic softening below T_N occurs in the other elastic moduli, reflecting that some kind of instability is still alive below T_N. Elastic anomalies detected below T_N suggest successive phase transitions.

Original language	English
Article number	013602
Journal	Journal of the Physical Society of Japan
Volume	87
Issue number	1
DOIs	https://doi.org/10.7566/JPSJ.87.013602
State	Published - 2018

ASJC Scopus subject areas

General Physics and Astronomy

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10.7566/JPSJ.87.013602

Cite this

@article{183469e259e541788f5976a43cf98d43,

title = "Ferroquadrupolar ordering due to the quasi-degenerate quartet in the trigonal chiral structure of DyNi3Ga9",

abstract = "To clarify the origin of the phase transition at TN = 10K in the trigonal chiral compound DyNi3Ga9, we performed ultrasonic measurements on single-crystalline samples. We found a significant elastic softening of the transverse modulus C66 toward TN. By analyzing the data using the strain susceptibility, the positive sign of the quadrupole-quadrupole coupling constant for C66 was obtained. These results strongly suggest that ferroquadrupolar ordering will be dominant for the phase transition at TN. Below TN, crystal symmetry will lower from the trigonal structure. Elastic softening below TN occurs in the other elastic moduli, reflecting that some kind of instability is still alive below TN. Elastic anomalies detected below TN suggest successive phase transitions.",

author = "Isao Ishii and Kohki Takezawa and Takuyou Mizuno and Shuhei Kamikawa and Hiroki Ninomiya and Yuji Matsumoto and Shigeo Ohara and Keisuke Mitsumoto and Takashi Suzuki",

note = "Publisher Copyright: {\textcopyright} 2018 The Physical Society of Japan.",

year = "2018",

doi = "10.7566/JPSJ.87.013602",

language = "英語",

volume = "87",

journal = "Journal of the Physical Society of Japan",

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TY - JOUR

T1 - Ferroquadrupolar ordering due to the quasi-degenerate quartet in the trigonal chiral structure of DyNi3Ga9

AU - Ishii, Isao

AU - Takezawa, Kohki

AU - Mizuno, Takuyou

AU - Kamikawa, Shuhei

AU - Ninomiya, Hiroki

AU - Matsumoto, Yuji

AU - Ohara, Shigeo

AU - Mitsumoto, Keisuke

AU - Suzuki, Takashi

PY - 2018

Y1 - 2018

N2 - To clarify the origin of the phase transition at TN = 10K in the trigonal chiral compound DyNi3Ga9, we performed ultrasonic measurements on single-crystalline samples. We found a significant elastic softening of the transverse modulus C66 toward TN. By analyzing the data using the strain susceptibility, the positive sign of the quadrupole-quadrupole coupling constant for C66 was obtained. These results strongly suggest that ferroquadrupolar ordering will be dominant for the phase transition at TN. Below TN, crystal symmetry will lower from the trigonal structure. Elastic softening below TN occurs in the other elastic moduli, reflecting that some kind of instability is still alive below TN. Elastic anomalies detected below TN suggest successive phase transitions.

AB - To clarify the origin of the phase transition at TN = 10K in the trigonal chiral compound DyNi3Ga9, we performed ultrasonic measurements on single-crystalline samples. We found a significant elastic softening of the transverse modulus C66 toward TN. By analyzing the data using the strain susceptibility, the positive sign of the quadrupole-quadrupole coupling constant for C66 was obtained. These results strongly suggest that ferroquadrupolar ordering will be dominant for the phase transition at TN. Below TN, crystal symmetry will lower from the trigonal structure. Elastic softening below TN occurs in the other elastic moduli, reflecting that some kind of instability is still alive below TN. Elastic anomalies detected below TN suggest successive phase transitions.

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DO - 10.7566/JPSJ.87.013602

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JO - Journal of the Physical Society of Japan

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