Specific heat of the non-centrosymmetric superconductor Re3W

doi:10.1088/1674-1056/18/2/049

Abstract

Abstract The alloys of non-centrosymmetric superconductor, Re$_3$W, which were reported to have an $\alpha$-Mn structure [P. Greenfield and P. A. Beck, J. Metals, N. Y. 8, 265 (1959)] with $T_{\rm c}=9$ K, are prepared by arc melting. The values of ac susceptibility and the low-temperature specific heat of these alloys are measured. It is found that there are two superconducting phases coexisting in the samples with $T_{\rm c1}\approx9$ K and $T_{\rm c2}\approx7$ K, which are both non-centrosymmetric in structure as reported previously. By analysing the specific heat data measured in various magnetic fields down to a temperature of 1.8 K, we find that the absence of the inversion symmetry does not lead to an obvious deviation from an $s$-wave pairing symmetry in Re$_3$W.

Keywords: Re₃W non-centrosymmetric superconductivity specific heat

Received: 17 October 2008
Revised: 30 October 2008
Accepted manuscript online:

PACS:	74.25.Bt	(Thermodynamic properties)
	74.70.Ad	(Metals; alloys and binary compounds)

Fund: Project supported by the National Natural Science Foundation of China, the National Basic Research Program of China (Grant Nos 2006CB601000, 2006CB921802 and 2006CB921300), and the Knowledge Innovation Program of the Chinese Academy of Sciences (ITSNEM).

Cite this article:

Yan Jing(闫静), Shan Lei(单磊), Luo Qiang(罗强), Wang Wei-Hua(汪卫华), and Wen Hai-Hu(闻海虎) Specific heat of the non-centrosymmetric superconductor Re₃W 2009 Chin. Phys. B 18 704

[1]	Enhanced topological superconductivity in an asymmetrical planar Josephson junction Erhu Zhang(张二虎) and Yu Zhang(张钰). Chin. Phys. B, 2023, 32(4): 040307.
[2]	Superconductivity in epitaxially grown LaVO₃/KTaO₃(111) heterostructures Yuan Liu(刘源), Zhongran Liu(刘中然), Meng Zhang(张蒙), Yanqiu Sun(孙艳秋), He Tian(田鹤), and Yanwu Xie(谢燕武). Chin. Phys. B, 2023, 32(3): 037305.
[3]	Pressure-induced stable structures and physical properties of Sr-Ge system Shuai Han(韩帅), Shuai Duan(段帅), Yun-Xian Liu(刘云仙), Chao Wang(王超), Xin Chen(陈欣), Hai-Rui Sun(孙海瑞), and Xiao-Bing Liu(刘晓兵). Chin. Phys. B, 2023, 32(1): 016101.
[4]	Superconducting properties of the C15-type Laves phase ZrIr₂ with an Ir-based kagome lattice Qing-Song Yang(杨清松), Bin-Bin Ruan(阮彬彬), Meng-Hu Zhou(周孟虎), Ya-Dong Gu(谷亚东), Ming-Wei Ma(马明伟), Gen-Fu Chen(陈根富), and Zhi-An Ren(任治安). Chin. Phys. B, 2023, 32(1): 017402.
[5]	Superconductivity and unconventional density waves in vanadium-based kagome materials AV₃Sb₅ Hui Chen(陈辉), Bin Hu(胡彬), Yuhan Ye(耶郁晗), Haitao Yang(杨海涛), and Hong-Jun Gao(高鸿钧). Chin. Phys. B, 2022, 31(9): 097405.
[6]	Mottness, phase string, and high-T_c superconductivity Jing-Yu Zhao(赵靖宇) and Zheng-Yu Weng(翁征宇). Chin. Phys. B, 2022, 31(8): 087104.
[7]	Structural evolution and molecular dissociation of H₂S under high pressures Wen-Ji Shen(沈文吉), Tian-Xiao Liang(梁天笑), Zhao Liu(刘召), Xin Wang(王鑫), De-Fang Duan(段德芳), Hong-Yu Yu(于洪雨), and Tian Cui(崔田). Chin. Phys. B, 2022, 31(7): 076102.
[8]	High-pressure study of topological semimetals XCd₂Sb₂ (X = Eu and Yb) Chuchu Zhu(朱楚楚), Hao Su(苏豪), Erjian Cheng(程二建), Lin Guo(郭琳), Binglin Pan(泮炳霖), Yeyu Huang(黄烨煜), Jiamin Ni(倪佳敏), Yanfeng Guo(郭艳峰), Xiaofan Yang(杨小帆), and Shiyan Li(李世燕). Chin. Phys. B, 2022, 31(7): 076201.
[9]	Surface electron doping induced double gap opening in T_d-WTe₂ Qi-Yuan Li(李启远), Yang-Yang Lv(吕洋洋), Yong-Jie Xu(徐永杰), Li Zhu(朱立), Wei-Min Zhao(赵伟民), Yanbin Chen(陈延彬), and Shao-Chun Li(李绍春). Chin. Phys. B, 2022, 31(6): 066802.
[10]	Thermodynamic properties of two-dimensional charged spin-1/2 Fermi gases Jia-Ying Yang(杨家营), Xu Liu(刘旭), Ji-Hong Qin(秦吉红), and Huai-Ming Guo(郭怀明). Chin. Phys. B, 2022, 31(6): 060504.
[11]	Superconductivity in CuIr_2-xAl_xTe₄ telluride chalcogenides Dong Yan(严冬), Lingyong Zeng(曾令勇), Yijie Zeng(曾宜杰), Yishi Lin(林一石), Junjie Yin(殷俊杰), Meng Wang(王猛), Yihua Wang(王熠华), Daoxin Yao(姚道新), and Huixia Luo(罗惠霞). Chin. Phys. B, 2022, 31(3): 037406.
[12]	Topological superconductivity in Janus monolayer transition metal dichalcogenides Xian-Dong Li(李现东), Zuo-Dong Yu(余作东), Wei-Peng Chen(陈伟鹏), and Chang-De Gong(龚昌德). Chin. Phys. B, 2022, 31(11): 110304.
[13]	Recent advances in quasi-2D superconductors via organic molecule intercalation Mengzhu Shi(石孟竹), Baolei Kang(康宝蕾), Tao Wu(吴涛), and Xianhui Chen(陈仙辉). Chin. Phys. B, 2022, 31(10): 107403.
[14]	Synthesis and properties of La_1-xSr_xNiO₃ and La_1-xSr_xNiO₂ Mengwu Huo(霍梦五), Zengjia Liu(刘增家), Hualei Sun(孙华蕾), Lisi Li(李历斯), Hui Lui(刘晖), Chaoxin Huang(黄潮欣), Feixiang Liang(梁飞翔), Bing Shen(沈冰), and Meng Wang(王猛). Chin. Phys. B, 2022, 31(10): 107401.
[15]	Synthesis and superconductivity in yttrium superhydrides under high pressure Yingying Wang(王莹莹), Kui Wang(王奎), Yao Sun(孙尧), Liang Ma(马良), Yanchao Wang(王彦超), Bo Zou(邹勃), Guangtao Liu(刘广韬), Mi Zhou(周密), and Hongbo Wang(王洪波). Chin. Phys. B, 2022, 31(10): 106201.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

Specific heat of the non-centrosymmetric superconductor Re3W

Cite this article:

Online attention

Specific heat of the non-centrosymmetric superconductor Re₃W