程金光

中国科学院物理研究所

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  • 程金光
  • 研究员

程金光 简介

简介

:

2003和2005年哈尔滨工业大学物理系获理学学士和硕士学位。2010年美国德克萨斯大学奥斯汀分校获博士学位,并接着进行两年博士后研究。2012至2014年在日本东京大学物性研究所做JSPS博士后。2014年8月全职加入物理所。目前担任极端条件物理实验室副主任,EX6课题组组长,研究员、博士生导师。

主要研究方向

:

高压极端条件下的新材料和奇异物理现象

过去的主要工作及获得的成果

:

1.搭建了国内第一台基于立方六面砧压腔的高压低温综合物性测量装置,开展了多重极端条件下的奇异物理现象探索和机理研究;首次在CrAs和MnP中发现了高压诱导的超导电性,相继实现了第一个Cr基和Mn基化合物超导体零的突破;绘制了FeSe单晶完整的温度-压力相图,揭示了多种电子序与超导之间的竞争关系;在重电子掺杂FeSe材料中发现高压诱导的超导II相和反常的正常态行为。

2.利用二级推进多面砧压机,在高压高温条件下首次合成了多个具有新颖晶体结构和奇异物理性质的材料体系,包括自旋S=1的量子自旋液体候选材料Ba3NiSb2O9、d电子重费米材料CaCu3Ir4O12和具有强自旋-轨道耦合的Slater绝缘体SrIr1-xSnxO3。

至今已在包括Nature Communications、PRL、JACS和PNAS内的国际重要学术期刊上合作发表学术论文140余篇,在本领域内的重要国际和国内会议做邀请报告二十余次。2015年获得中国科学院卢嘉锡青年人才奖;因发现首个Mn基和Cr基化合物超导体获得2016年马丁伍德爵士中国奖。

代表性论文及专利

:

[1] J. P. Sun, P. Shahi, H. X. Zhou, Y. L. Huang, K. Y. Chen, B. S. Wang, S. L. Ni, N. N. Li, K. Zhang, W. G. Yang, Y. Uwatoko, G. Xing, J. Sun, D. J. Singh, K. Jin, F. Zhou, G. M. Zhang, X. L. Dong*, Z. X. Zhao, and

J.-G. Cheng

*; 'Reemergence of high-Tc superconductivity in the (Li1-xFex)OHFe1-ySe under high pressure';

Nature Communications

(2018)

9

, 380.

[2] P. Shahi, D. J. Singh*, J. P. Sun, L. X. Zhao, G. F. Chen, Y. Y. Lv, J. Li, J.-Q. Yan, D. G. Mandrus, and

J.-G. Cheng

*; 'Bipolar conduction as the possible origin of the electronic transition in pentatellurides: metallic vs semiconducting behavior';

Physical Review X

(2018)

8

, 021055.

[3] M. Matsuda, F. K. Lin, R. Yu,

J.-G. Cheng*

, W. Wu, J. P. Sun, J. H. Zhang, P. J. Sun, K. Matsubayashi, T. Miyake, T. Kato, J.-Q. Yan, M. B. Stone, Q. Si, J. L. Luo, and Y. Uwatoko; 'Evolution of magnetic double helix and quantum criticality near a dome of superconductivity in CrAs';

Physical Review X

(2018)

8

, 031017.

[4] X. Li, J. P. Sun, P. Shahi, M. Gao, A. H. MacDonald, Y. Uwatoko, T. Xiang, J. B. Goodenough*,

J.-G. Cheng

*, and J.-S. Zhou*; 'Pressure-induced phase transitions and superconductivity in a black phosphorus single crystal';

PNAS

(2018)

115

, 9935.

[5] J. P. Sun, G. Z. Ye, P. Shahi, J.-Q. Yan, K. Matsuura, H. Kontani, G. M. Zhang, Q. Zhou, B. C. Sales, T. Shibauchi, Y. Uwatoko, D. J. Singh*, and

J.-G. Cheng

*; “High-

T

c

superconductivity in FeSe at high pressure: Dominant hole carriers and enhanced spin fluctuations”;

Physical Review Letters

(2017)

118

, 147004.

[6] J. P. Sun, K. Matsuura, G. Z. Ye, Y. Mizukami, M. Shimozawa, K. Matsubayashi, M. Yamashita, T. Watashige, S. Kasahara, Y. Matsuda, J.-Q. Yan*, B.C. Sales, Y. Uwatoko,

J.-G. Cheng

*, and T. Shibauchi

*

; 'Dome-shaped magnetic order competing with high-temperature superconductivity at high pressures in FeSe';

Nature Communications

(2016)

7

, 12146.

[7] Q. Cui,

J.-G. Cheng

*, W. Fan, A. E. Taylor, S. Calder, M. A. McGuire, J.-Q. Yan, D. Meyers, X. Li, Y. Q. Cai, Y. Y. Jiao, Y. Choi, D. Haskel, H. Gotou, Y. Uwatoko, J. Chakhalian, A. D. Christianson, S. Yunoki, J. B. Goodenough, and J.-S. Zhou*; 'A Slater insulator in iridates perovskites with strong spin-orbit coupling';

Physical Review Letters

(2016)

117

, 176603.

[8] Y. S. Wang,  Y. J. Feng,

J.-G. Cheng

, W. Wu, J. L. Luo, and T. F. Rosenbaum; 'Spiral magnetic order and pressure-induced superconductivity in transition metal compounds';

Nature Communicaitons

(2016)

7

, 13037.

[9]

J.-G. Cheng

*, K. Matsubayashi, W. Wu, J. P. Sun, F. K. Lin, J. L. Luo, and Y. Uwatoko; “Pressure induced superconductivity on the border of magnetic order in MnP”;

Physical Review Letters

(2015) 114, 117001.

[10]

J.-G. Cheng

, K. E. Kweon, S. A. Larregola, Y. Ding, Y. Shirako, L. G. Marshall, Z.-Y. Li, X. Li, A. M. dos Santos, M. R. Suchomel, K. Matsubayashi, Y. Uwatoko, G. S. Hwang, J. B. Goodenough*, and J.-S. Zhou*; “Charge disproportionation and the pressure-induced insulator-metal transition in cubic perovskite PbCrO

3

”;

Proceedings of the National Academy of Sciences

(2015) 112, 1670-1674.

[11] W. Wu,

J.-G. Cheng

*, K. Matsubayashi, P. P. Kong, F. K. Lin, C. Q. Jin, N. L. Wang, Y. Uwatoko*, and J. L. Luo*; “Superconductivity in the vicinity of antiferromagnetic order in CrAs”;

Nature Communications

(2014) 5, 5508.

[12] D. Meyers*, S. Middey,

J.-G. Cheng

, S. Mukherjee, B. A. Gray, Y. W. Cao, J.-S. Zhou, J. B. Goodenough, Y. Choi, D. Haskel, J. W. Freeland, T. Saha-Dasgupta*, and J. Chakhalian; “Competition between heavy-fermion and Kondo interaction in isoelectronic A-site ordered perovskites”;

Nature Communications

(2014) 5, 5818.

[13] A. M. Hallas,

J.-G. Cheng

, A. M. Arevalo-Lopez, H. J. Silverstein, Y. Su, P. M. Sarte, H. D. Zhou, E. S. Choi, J. P. Attfield, G. M. Luke*, and C. R. Wiebe; “Incipient Ferromagnetism in Tb

2

Ge

2

O

7

: Application of Chemical Pressure to the Enigmatic Spin-Liquid Compound Tb

2

Ti

2

O

7

”;

Physical Review Letters

(2014)

113

, 267205.

[14]

J.-G. Cheng

*, J.-S. Zhou, Y.-F. Yang, H. D. Zhou, K. Matsubayashi, Y. Uwatoko, A. MacDonald, and J. B. Goodenough; “Possible Kondo Physics Near a Metal-Insulator Crossover in the A-site Ordered Perovskite CaCu

3

Ir

4

O

12

”;

Physical Review Letters

(2013) 111, 176403.

[15]

J.-G. Cheng

, J.-S. Zhou, and J. B. Goodenough; “Lattice Effects on Ferromagnetism in Perovskite Ruthenates”;

Proceedings of the National Academy of Sciences

(2013) 110, 13312-13315.

[16]

J.-G. Cheng

, W. Tian, J.-S. Zhou*, V. M. Lynch, H. Steinfink, A. Manthiram, A. F. May, V. O. Garlea, J. C. Neuefeind, and J. Q. Yan*; “Crystal and Magnetic Structures and Physical Properties of a New Pyroxene NaMnGe

2

O

6

Synthesized under High Pressure”;

Journal of the American Chemical Society

(2013) 135, 2776-2786.

[17]

J.-G. Cheng

, K. E. Kweon, J.-S. Zhou, J. A. Alonso, P.-P. Kong, Y. Liu, Changqing Jin, Junjie Wu, Jung-Fu Lin, S. A. Larregola, Wenge Yang, Guoyin Shen, A. H. MacDonald, Arumugam Manthiram, G. S. Hwang, and J. B. Goodenough; “Anomalous perovskite PbRuO

3

stabilized under high pressure”;

Proceedings of the National Academy of Sciences

(2013) 110, 20003-20007.

[18]

J.-G. Cheng

, J.-S. Zhou, J. B. Goodenough, H. D. Zhou, K. Matsubayashi, Y. Uwatoko, P. P. Kong, C. Q. Jin, W. G. Yang, and G. Y. Shen; “Pressure Effect on the Structural Transition and Suppression of the High-Spin State in the Triple-Layer T’-La4Ni3O8”;

Physical Review Letters

(2012) 108, 236403.

[19]

J.-G. Cheng

, G. Li, L. Balicas, J. S. Zhou, J. B. Goodenough, C. K. Xu, and H. D. Zhou; “High-Pressure Sequence of Ba3NiSb2O9 Structural Phases: New S = 1 Quantum Spin Liquids Based on Ni2+”;

Physical Review Letters

(2011)

107, 197204.

[20]

J.-G. Cheng

, J. A. Alonso, E. Suard, J.-S. Zhou, and J. B. Goodenough; “A New Perovskite Polytype in the High-Pressure Sequence of BaIrO3”;

Journal of the American Chemical Society

(2009) 131, 7461-7469.

[21]

J.-G. Cheng

, Y. Sui, J.-S. Zhou, J. B. Goodenough, and W. H. Su; “Transition from Orbital Liquid to Jahn-Teller Insulator in Orthorhombic Perovskite RTiO3”;

Physical Review Letters

(2008)

101, 087205.

目前的研究课题及展望

:

探索具有奇异物理性质的新材料体系是推动凝聚态科学发展的强大动力。在这方面,高压技术具有独特的、不可取代的地位,在现代凝聚态物理的研究中正发挥越来越重要的作用。作为与温度同等重要的热力学参量,高压可以在很大程度上决定许多固态反应的方向和速率,在高温高压条件下能够合成出许多常压条件下不存在的新材料体系。通过施加高压还可以改变决定材料物性非常关键的参数---原子间距离,从而可以精确的调控物性;将超高静水压和极低温、强磁场等极端条件结合在一起,可以探索材料在这些极端激励下的响应,能够揭示出许多奇特并且具有潜在应用价值的物理现象。本人已建立起集高压材料合成与高压物性表征于一体的极端条件实验室,开展综合极端条件下的新材料和物理现象探索。