curriculum vitae of zhiping yin...
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Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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Curriculum Vitae of Zhiping Yin (殷志平)
Professor Department of Physics and Center for Advanced Quantum Studies, Beijing Normal University 19 Xinjiekouwai St, Haidian, Beijing 100875, China Web: http://dmft.bnu.edu.cn http://physics.bnu.edu.cn/application/faculty/yinzhiping/index_English.html Email: [email protected] Tel (O): +86 10 58802781
Education 2009 Ph. D. in Physics, University of California Davis, Davis, CA
Advisor: Prof. Warren E. Pickett Title of Dissertation: Microscopic Mechanisms of Magnetism and Superconductivity Studied from First-Principles Calculations
2005 B.S. in Physics, Peking University, Beijing, China
Research Experience 2016-present Professor, Beijing Normal University 2015-2016 Research Professor, Beijing Normal University 2011-2015 Research Associate, Rutgers University
Working with Profs. Gabriel Kotliar and Kristjan Haule 2010-2011 Senior Postdoctoral Associate, Stony Brook University
Working with Prof. Meigan Aronson at Stony Brook University, and Profs. Gabriel Kotliar and Kristjan Haule at Rutgers University
2009-2010 Postdoctoral Associate, Rutgers University Working with Prof. Gabriel Kotliar and Prof. KristjanHaule
2005-2009 Research Assistant, University of California Davis Working with Prof. Warren E. Pickett and Prof. Sergey Savrasov
Publications and Scientific Impact At a glance: Citation indices All Since 2014
Citations 2212 1543 h-index 20 18 i10-index 30 26 (Google Scholar statistics as of April, 2019. Detailed and latest information is available here: http://scholar.google.com/citations?user=ZRuXSVcAAAAJ&hl=en)
Number of papers published in scientific journals: Nature Physics: 2 Nature Materials: 1 Physical Review Letters: 9 Physical Review X: PNAS: 1 Nature Communications: 2
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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Chemistry of Materials: 1 European Physical Letters: 1 New Journal of Physics: 1 Physical Review B: 26 npj Quantum Materials: 2 Inorganic Chemistry: 1 Philosophical Magazine Letters: 1 Together with my collaborators, I have made a number of important contributions to understanding strongly correlated electron systems and high temperature superconductivity. I established the mechanism of electronic correlation driven strong electron-phonon coupling mediated superconductivity and solved a thirty-year old puzzle in the bismuthates and chloronitrides. I defined the notions of Hund's metals and Hund's insulators which have distinct physics from conventional Mott-Hubbard insulators. In the context of the iron-based superconductors, I am among the first to uncover the crucial role of the pnicogen height, the kinetic frustration mechanism and the strong orbital differentiation. I predicted the strong in-plane anisotropy in the magnetic state, orbital dependent incoherence-coherence crossover, and interband superconducting pairing, all of which were confirmed by later experimental observations. I found a simple form of superconducting pairing in the orbital space and uncovered a novel orbital-antiphase pairing state for the iron-based superconductors which naturally explains a number of experimental observations. I have successfully designed a new class of mixed-valent thallium halide materials which are promising candidates for high temperature superconductivity. Representative Publications [Top 1% highly cited paper] Kinetic frustration and the nature of the magnetic and paramagnetic states in iron pnictides and iron chalcogenides. Z. P. Yin, K. Haule, and G. Kotliar, Nature Materials 10, 932-935 (2011). [Top 1% highly cited paper] Magnetism and charge dynamics in iron pnictides. Z. P. Yin, K. Haule, and G. Kotliar, Nature Physics 7, 294-297 (2011). [Top 1% highly cited paper] Electron-hole symmetry and magnetic coupling in antiferromagnetic LaFeAsO. Z. P. Yin, S. Lebegue, M. J. Han, B. P. Neal, S. Y. Savrasov, and W. E. Pickett, Physical Review Letters 101, 047001 (2008). Spin dynamics and orbital-antiphase pairing symmetry in iron-based superconductors. Z. P. Yin, K. Haule, and G. Kotliar, Nature Physics 10, 845-850 (2014). Correlation-enhanced electron-phonon coupling: Applications of GW and screened hybrid functional to bismuthates, chloronitrides, and other high Tc superconductors. Z. P. Yin, A. Kutepov, and G. Kotliar, Phys. Rev. X 3, 021011 (2013). A single nodal loop of accidental degeneracies in minimal symmetry: triclinic CaAs3 Y. Quan, Z. P. Yin*, and W. E. Pickett*, Phys. Rev. Lett. 118, 176402 (2017). Two-dimensional Massless Dirac Fermions in Antiferromagnetic AFe2As2 (A = Ba, Sr)
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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Zhi-Guo Chen*, Luyang Wang, Yu Song, Xingye Lu, Huiqian Luo, Chenglin Zhang, Pengcheng Dai, Zhiping Yin*, Kristjan Haule, Gabriel Kotliar, Phys. Rev. Lett. 119, 096401 (2017). Orbital selective spin excitations and their impact on superconductivity of LiFe1-xCoxAs Yu Li, Zhiping Yin*, Xiancheng Wang, David W. Tam, D. L. Abernathy, A. Podlesnyak, Chenglin Zhang, Meng Wang, Lingyi Xing, Changqing Jin, Kritjan Haule, Gabriel
Kotliar, Thomas A. Maier, and Pengcheng Dai*,Phys. Rev. Lett.116, 247001 (2016).
DMFT+NRG study of spin-orbital separation in a three-band Hund's metal K. M. Stadler, Z. P. Yin, J. von Delft, G. Kotliar, and A. Weichselbaum, Phys. Rev. Lett. 115, 136401 (2015). Effect of pnictogen height on spin waves in iron pnictides Chenglin Zhang, Leland W. Harriger, Zhiping Yin(co-first author), Weicheng Lv, Miaoyin Wang, Guotai Tan, Yu Song, D. L. Abernathy, Wei Tian, Takeshi Egami, Kristjan Haule, Gabriel Kotliar, and Pengcheng Dai, Phys. Rev. Lett. 112, 217202 (2014). Doping dependence of spin excitations and its correlations with high temperature superconductivity in iron pnictides M. Wang, C.L. Zhang, X.Y. Lu, G.T. Tan, H.Q. Luo, Y. Song, M.Y. Wang, X.T. Zhang, E. A. Goremychkin, T.G. Perring, T.A. Maier, Z. P. Yin, K. Haule, G. Kotliar, and P.C. Dai, Nature Communications 4, 2874 (2013). Rational material design of mixed-valent high-temperature superconductors Z. P. Yin and G. Kotliar, European Physical Letters 101, 27002 (2013). Fractional power-law behavior and its origin in iron-chalcogenide and ruthenate superconductors: Insights from first-principles calculations Z. P. Yin, K. Haule, and G. Kotliar, Phys. Rev. B 86, 195141 (2012). From antiferromagnetic insulator to correlated metal in pressurized and doped LaMnPO J. W. Simonson, Z. P. Yin, M. Pezzoli, J. Guo, J. Liu, K. Post, A. Efimenko, N. Hollmann, Z. Hu, H.-J. Lin, C. T. Chen, C. Marques, V. Leyva, G. Smith, J. W. Lynn, L. Sun, G. Kotliar, D. N. Basov, L. H. Tjeng, and M. C. Aronson, PNAS 109 (27), E1815-E1819 (2012).
Honors
2014 Distinguished Referee of EPL 2007 Department Fellowship, UC Davis 2006 Department Fellowship, UC Davis 2004 Chun-Tsung Scholar, Peking University, China 2003-2005 Chun-Tsung Research Scholarship by Chun-Tsung Researching Endowment Fund through Peking University, China 2002 Outstanding study Scholarship, Peking University, China 2001-2005 Mercedes-Benz Scholarship, Peking University, China
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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2001 Freshman Scholarship, Peking University, China
Synergistic Activities Member of American Physical Society; Referee of Reviews of Modern Physics, Physical Review Letters, Physics Review X, Physical Review B, New Journal of Physics, Scientific Report, Nanotechnology, Journal of Physics: Condensed Matter, European Physical Letters, European Physical Journal B, Materials Research Bulletin, Journal of Physics D: Applied Physics, Applied Physics A-Materials Science & Processing, Journal of Physics and Chemistry of Solids.
Research Interests My current research area is theoretical and computational quantum condensed matter and materials physics. Starting from the principles of quantum mechanics, my research aims at developing and applying first-principles electronic structure methodsand tools to understandand design complex functional materials at the atomistic level.These methods includestandard density functional theory (DFT) and its static extensions, the combination ofdensity functional theory and dynamical mean field theory (DFT+DMFT), GW, as well as classical force-field methods and molecular dynamics.
Full Publication List: 52. Coexistence of ferromagnetic and stripe-type antiferromagnetic spin fluctuations in
YFe2Ge2 Hongliang Wo, Qisi Wang, Yao Shen, Xiaowen Zhang, Yiqing Hao, Yu Feng,
Shoudong Shen, Zheng He, Bingying Pan, Wenbin Wang, K. Nakajima, S. Ohira-Kawamura, P. Steffens, M. Boehm, K. Schmalzl, J. T. Park, T. R. Forrest, M. Matsuda, Yang Zhao, J. W. Lynn, Zhiping Yin, and Jun Zhao,
submitted (2018), arXiv:1808.07262 51. Coexistence of ferromagnetic and stripe antiferromagnetic spin fluctuations in
SrCo2As2 Yu Li, Zhiping Yin*, Zhonghao Liu, Weiyi Wang, Zhuang Xu, Yu Song, Long Tian,
Yaobo Huang, Dawei Shen, D. L. Abernathy, J. L. Niedziela, R. A. Ewings, T. G. Perring, Daniel Pajerowski, Masaaki Matsuda, Philippe Bourges, Enderle Mechthild, Yixi Su, and Pengcheng Dai*,
Phys. Rev. Lett. 122, 117204 (2019). arXiv:1902.10621 50. Robust and clean Majorana zero modes in the vortex core of high-temperature
superconductor (Li0.84Fe0.16)OHFeSe Q. Liu, C. Chen, T. Zhang*, R. Peng, Y. J. Yan, C. H. P. Wen, X. Lou, X. L. Dong,
G. W. Wang, W. C. Bao, Q. H. Wang, Z. P. Yin*, Z.-X. Zhao, D. L. Feng*, Phys. Rev. X 8, 041056 (2018), arXiv:1807.01278. 49. Electronic structure and spin dynamics of ACo2As2 (A=Ba, Sr, Ca) H. C. Mao & Z. P. Yin*, Phys. Rev. B 98, 115128 (2018), arXiv:1809.08550. 48. Revealing the hidden order in BaTi2As2O via nuclear magnetic resonance D. W. Song, J. Li, D. Zhao, L. K. Ma, L. X. Zheng, S. J. Li, L. B. Nie, X. G. Luo, Z. P.
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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Yin*, T. Wu*, and X. H. Chen, Phys. Rev. B 98, 235142 (2018), arXiv:1806.11272. 47. Unveiling the superconducting mechanism of Ba0.51K0.49BiO3 C. H. P. Wen, H. C. Xu*, Q. Yao, R. Peng, X. H. Niu, Q. Y. Chen, Z. T. Liu, D. W.
Shen, Q. Song, X. Lou, X. S. Liu, Y. H. Song, Y. J. Jiao, T. F. Duan, H. H. Wen, P. Dudin, G. Kotliar, Z. P. Yin*, and D. L. Feng*,
Phys. Rev. Lett. 121,117002 (2018); Featured in Physics;Editors' Suggestion; arXiv:1802.10507.
46. Universal 2Δmax/kBTc scaling decoupled from the electronic coherence in iron-
based superconductors H. Miao,W. H. Brito, Z. P. Yin, R. D. Zhong, G. D. Gu, P. D. Johnson, M. P. M.
Dean, S. Choi, G. Kotliar, W. Ku, X. C. Wang, C. Q. Jin, S. -F. Wu, T. Qian, and H. Ding,
Phys. Rev. B 98, 020502(R) (2018). 45. Realization of continuous electron doping in bulk iron selenides and identification of
a new superconducting zone R. J. Sun, Y. Quan, S. F. Jin*, L. Zhao, Q. Z. Huang, W. Hui, L. Gu*, Z. P. Yin*, X.L.
Chen*, Phys. Rev. B 98, 214508 (2018) (Editors' Suggestion).arXiv:1808.08501 44. Collapse of Critical Nematic Fluctuations in FeSe under Pressure Pierre Massat*,Yundi Quan, Romain Grasset, Marie-Aude Measson, Maximilien
Cazayous, Alain Sacuto, Sandra Karlsson, Pierre Strobel, Pierre Toulemonde, Zhiping Yin*, and Yann Gallais*
Phys. Rev. Lett. 121, 077001 (2018); arXiv:1801.10316. 43. c-axis pressure induced antiferromagnetic order in optimally P-doped
BaFe2(As0.7P0.3)2 superconductor Ding Hu*, Weiyi Wang, Wenliang Zhang, Yuan Wei, Dongliang Gong, Robert
Georgii, Bjorn Pedersen, Wei Tian, Bertrand Roessli, Yu Song, Zhiping Yin*, and Pengcheng Dai*
npj Quantum Materials 3,47 (2018).arXiv:1808.05153 42. Structure of spin excitations in heavily electron-doped Li0.8Fe0.2ODFeSe
superconductors Bingying Pan, Yao Shen, Die Hu, Yu Feng, J. T. Park, A. D. Christianson, Qisi
Wang, Yiqing Hao, Hongliang Wo, Zhiping Yin, T. A. Maier, and Jun Zhao Nat. Commun. 8, 123 (2017).
41. Observation of a New Coherent State in Iron-Based Superconductor KFe2As2
Run Yang, Zhiping Yin*, Yilin Wang, Yaomin Dai, Hu Miao, Bing Xu, Xianggang Qiu*, and Christopher C. Homes*
Phys. Rev. B 96, 201108(R) (2017). 40. Correlation-driven metal-insulator transition in proximity to an iron-based
superconductor
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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A. Charnukha*, Z. P. Yin*, Y. Song, C. D. Cao, Pengcheng Dai, K. Haule, G. Kotliar, & D. N. Basov Phys. Rev. B 96, 195121 (2017). Featured as Editors' Suggestion.
39. A single nodal loop of accidental degeneracies in minimal symmetry: triclinic CaAs3
Y. Quan, Z. P. Yin*, and W. E. Pickett* Phys. Rev. Lett. 118, 176402 (2017)
38. Spin excitations and the Fermi surface of superconducting FeS
Haoran Man, Jiangang Guo, Rui Zhang, Rico U. Sch onemann, Zhiping Yin*, Mingxuan Fu,M. B. Stone, Qingzhen Huang, Yu Song, Weiyi Wang, David Singh, Felix Lochner, Tillman Hickel, IlyaEremin, Jeffrey W. Lynn, Collin Broholm, Luis Balicas, and Pengcheng Dai* npj Quantum Materials 2,14 (2017).
37. Two-dimensional Massless Dirac Fermions in Antiferromagnetic AFe2As2 (A =
Ba,Sr). Zhi-Guo Chen*, Luyang Wang, Yu Song, Xingye Lu, HuiqianLuo, Chenglin Zhang, Pengcheng Dai, Zhiping Yin*, Kristjan Haule, Gabriel Kotliar, Phys. Rev. Lett. 119, 096401 (2017).
36. Uniaxial pressure dependence of the magnetic ordered moment and transition
temperatures in BaFe2−xNixAs2 David W. Tam, Yu Song, Haoran Man, Zhiping Yin, Xingye Lu, S ky C. Cheung, Weiyi Wang, Benjamin A. Frandsen, Lian Liu, Yipeng Cai, Shengli Guo, Takashi U. Ito, Keisuke Koshiishi, Wei Tian, BassamHitti, Alexandre Ivanov, Yang Zhao, Jeffrey W. Lynn,Graeme M. Luke, Tom Berlijn, Thomas A. Maier, Yasutomo J. Uemura, and Pengcheng Dai Phys. Rev. B 95, 060505(R) (2017).
35. Spin excitations in optimally P-doped BaFe2(As0.7P0.3)2 superconductor
Ding Hu, ZhipingYin(co-first author), Wenliang Zhang, R. A. Ewings, Kazuhiko Ikeuch,Mitsutaka Nakamura, Bertrand Roessli, Yuan Wei, Lingxiao Zhao Genfu Chen, ShiliangLi, HuiqianLuo, KristjanHaule, Gabriel Kotliar, and Pengcheng Dai Phys. Rev. B 94, 094504 (2016).
34. Orbital selective spin excitations and their impact on superconductivity of
LiFe1-xCoxAs Yu Li, Zhiping Yin*, Xiancheng Wang, David W. Tam, D. L. Abernathy, A. Podlesnyak, Chenglin Zhang, Meng Wang, Lingyi Xing, Changqing Jin, Kritjan Haule, Gabriel Kotliar, Thomas A. Maier, and Pengcheng Dai Phys. Rev. Lett. 116, 247001 (2016).
33. Orbital-differentiated coherence-incoherence crossover identified by photoemission
spectroscopy in LiFeAs H. Miao, Z. P. Yin(co-first author), S.-F. Wu, J.-M. Lee, J. Ma, B.-Q. Lv, X.-P. Wang, T. Qian, P. Richard, L.-Y. Xing, X.-C. Wang, C.-Q. Jin, K. Haule, G. Kotliar and H. Ding
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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Phys. Rev. B 94, 201109(R) (2016). 32. Raman scattering study of the spin-density-wave-induced anisotropic electronic properties in AFe2As2 (A=Ca, Eu). W.-L. Zhang, Z. P. Yin, A. Ignatov, P. Richard, H. Ding, A. S. Sefat, J. Karpinski, and G. Blumberg,
Phys. Rev. B 93, 205106 (2016). 31. Distorted FeSe4 Unit in Ammonium ion Intercalated FeSe Superconductor.
Jian-gang Guo, Zhiping Yin(co-first author), Hui Wu, Qingzhen Huang, Kristjan Haule, Gabriel Kotliar and Pengcheng Dai
submitted (2015). 30. Pressure induced metallic state in LaMnPO revealed via infrared spectroscopy. K. W. Post, A.F. Goncharov, Z. P. Yin, J. W. Simonson, J. Guo, L.J. Sun, M.D. Goldflam, H. T. Stinson, B.C. Chapler, D. E. McNally, Z. X. Zhao, G. Kotliar, M. C. Aronson, and D. N. Basov,
Phys. Rev. B 94, 045115 (2016). 29. Critical Charge Fluctuations in Iron Pnictide Superconductors. V. K. Thorsmølle, M. Khodas, Z. P. Yin, Chenglin Zhang, S. V. Carr, Pengcheng Dai,
G. Blumberg, Phys. Rev. B 93, 054515 (2016). 28. Optical spectroscopy and dynamical mean field theory study of the metal-isulator
transition in K-doped BaMn2As2. D. E. McNally, S. Zellmann, Z. P. Yin, K. Hao, G. Kotliar, D. Basov, C.C. Homes, and M. C. Aronson,
Phys. Rev. B 92, 115142 (2015). 27.DMFT+NRG study of spin-orbital separation in a three-band Hund's metal. K. M. Stadler, Z. P. Yin, J. von Delft, G. Kotliar, and A. Weichselbaum,
Phys. Rev. Lett. 115, 136401(2015). 26. Hole doping and structural transformation in CsTl1-xHgxCl3. M. Retuerto, Z. P. Yin, T. J.Emge, P. W. Stephens, M. R. Li, T. Sarkar,
M. C. Croft, A. Ignatov, Z. Yuan, S. J. Zhang, C. Q. Jin, R. P. Sena, J. Hadermann, G. Kotliar, M. Greenblatt,
Inorg. Chem.54, 1066-1075(2015). 25. Origin of the Charge Gap in LaMnPO.
D.E. McNally, J. W. Simonson, K. W. Post, Z. P. Yin, M. Pezzoli, G. J. Smith, V. Leyva, C. Marques, L. DeBeer-Schmidt, A. I. Kolesnikov, Y. Zhao, J.W. Lynn, D. N. Basov, G. Kotliar, and M. C. Aronson, Phys. Rev. B90, 180403(R) (2014).
24. Spin dynamics and orbital-antiphase pairing symmetry in iron-based
superconductors.
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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Z. P. Yin, K. Haule, and G. Kotliar, Nature Physics 10, 845-850 (2014).
23. Effect of pnictogen height on spin waves in iron pnictides.
Chenglin Zhang, Leland W. Harriger, Zhiping Yin(co-first author), Weicheng Lv, Miaoyin Wang, Guotai Tan, Yu Song, D. L. Abernathy, Wei Tian, Takeshi Egami, Kristjan Haule, Gabriel Kotliar, and Pengcheng Dai, Phys. Rev. Lett. 112, 217202 (2014).
22. Temperature-dependent electronic structures, atomistic modeling, and thenegative
thermal expansion of δ-Pu. Z. P. Yin, X.Y. Deng, K. Basu, Q. Yin, and G. Kotliar, Philosophical Magazine Letters Vol. 94, No.10, 620-628 (2014).
21. Superconductivity in the Mn5Si3-type Zr5Sb3 system.
B. Lv, X. Y. Zhu, B. Lorenz , F. Y. Wei, Y. Y. Xue, Z. P. Yin, G. Kotliar, C. W. Chu, Phys. Rev. B 88, 134520 (2013).
20. Doping dependence of spin excitations and its correlations with high temperature
superconductivity in ironpnictides. M. Wang, C.L. Zhang, X.Y. Lu, G.T. Tan, H.Q. Luo, Y. Song, M.Y. Wang, X.T.
Zhang, E. A. Goremychkin, T.G. Perring, T.A. Maier, Z. P. Yin, K. Haule, G. Kotliar, and P.C. Dai, Nature Communications 4, 2874 (2013).
19. Synthesis and properties of charge-ordered thallium halideperovskites,
CsTl1+0.5Tl3+
0.5X3(X = F, Cl)- theoretical precursors for superconductivity? M. Retuerto, T. Emge, J. Hadermann, P. W. Stephens, M. R. Li, Z. P. Yin, M. Croft,
A. Ignatov, S. J. Zhang, Z. Yuan, C. Jin, J. W. Simonson, M. C. Aronson, A. Pan, D. N. Basov, G. Kotliar, M. Greenblatt, Chemistry of Materials 25 (20), 4071 (2013).
18. Correlation-enhanced electron-phononcoupling: Applications of GW and screened
hybrid functional to bismuthates,chloronitrides, and other high Tc superconductors. Z. P. Yin, A. Kutepov, and G. Kotliar,
Phys. Rev. X 3, 021011 (2013). 17. Rational material design of mixed-valent high-temperature superconductors. Z. P. Yin and G. Kotliar,
European Physical Letters 101, 27002 (2013). 16. Fractional power-law behavior and its origin in iron-chalcogenide and ruthenate
superconductors: Insights from first-principles calculations. Z. P. Yin, K. Haule, and G. Kotliar,
Phys. Rev. B 86, 195141 (2012). 15. From antiferromagnetic insulator to correlated metal in pressurized and doped
LaMnPO. J. W. Simonson, Z. P. Yin, M. Pezzoli, J. Guo, J. Liu, K. Post, A. Efimenko,
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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N. Hollmann, Z. Hu, H.-J. Lin, C. T. Chen, C. Marques, V. Leyva, G. Smith, J. W. Lynn, L. Sun, G. Kotliar, D. N. Basov, L. H. Tjeng, and M. C. Aronson, PNAS 109 (27), E1815-E1819 (2012).
14. Kinetic frustration and the nature of the magnetic and paramagnetic states in iron
pnictides and iron chalcogenides. Z. P. Yin, K. Haule, and G. Kotliar,
Nature Materials 10, 932-935 (2011). 13. Magnetism and charge dynamics in iron pnictides. Z. P. Yin, K. Haule, and G. Kotliar,
Nature Physics 7, 294-297 (2011). 12. Thermal and electrical transport in the spin density wave antiferromagnet
CaFe4As3. M. S. Kim, Z. P. Yin, L. L. Zhao, E. Morosan, G. Kotliar, and M. C. Aronson,
Physical Review B 84, 075112 (2011). 11. Role of crystal symmetry in the magnetic instabilities of beta-YbAlB4and alpha-
YbAlB4. D. A. Tompsett, Z. P. Yin, G. G. Lonzarich, and W. E. Pickett,
Physical Review B 82, 235101 (2010). 10. Crystal symmetry and magnetic order in iron pnictides: A tight-binding Wannier
function analysis. Z. P. Yin and W. E. Pickett,
Physical Review B 81, 174534 (2010). 9. Evidence for a spin singlet state in the intermetallic semiconductor FeGa3. Z. P. Yin and W. E. Pickett,
Physical Review B 82, 155202 (2010). 8. Competing phases, strong electron-phonon interaction, and superconductivity in
elemental calcium under high pressure. Z. P. Yin, F. Gygi, and W. E. Pickett,
Physical Review B 80, 184515 (2009). 7. Antiphase magnetic boundaries in iron-based superconductors: A first-principles
density-functional theory study. Z. P. Yin and W. E. Pickett,
Physical Review B 80, 144522 (2009). 6. The delicate electronic and magnetic structure of the LaOFePn system
(Pn= pnictogen). S. Lebegue, Z. P. Yin (co-first author), and W. E. Pickett,
New Journal of Physics 11, 025004 (2009). 5. Electron-hole symmetry and magnetic coupling in antiferromagnetic LaFeAsO. Z. P. Yin, S. Lebegue, M. J. Han, B. P. Neal, S. Y. Savrasov, and
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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W. E. Pickett, Physical Review Letters 101, 047001 (2008).
4. Rare-earth-boron bonding and 4f state trends in RB4 tetraborides. Z. P. Yin and W. E. Pickett,
Physical Review B 77, 035135 (2008). 3. Electronic band structure and Kondo coupling in YbRh2Si2. G. A. Wigger, F. Baumberger, Z.-X. Shen, Z. P. Yin, W. E. Pickett, S. Maquilon,
and Z. Fisk, Physical Review B 76, 035106 (2007).
2. Stability of the Gd magnetic moment to the 500 GPa regime: An LDA+U correlated
band method study. Z. P. Yin and W. E. Pickett,
Physical Review B 74, 205106 (2006). 1. Linear response study of strong electron-phonon coupling in yttriumunderpressure. Z. P. Yin, S. Y. Savrasov, and W. E. Pickett,
Physical Review B 74, 094519 (2006).
Invited Talks: 27. “Towards First-Principles Prediction of Strongly Correlated Materials”, The 15th
National Conference of Low Temperature Physics, Shaoguan, Guangdong, China, Nov. 15-20, 2016.
26. “Dynamical Mean Field Theory: Applications to Strongly Correlated Materials”, The
19th Asian Workshop on First-Principles Electronic Structure Calculations (ASIAN-19), October 31-November 2, 2016, National Chiao Tung University, Hsinchu, Taiwan.
25. “Dynamical Mean Field Theory: Applications to Strongly Correlated Materials”,The 2nd conference of condensed matter physics, Nanjing University, Nanjing, Jiangsu, China, July 20-22, 2016.
24. “Dynamical Mean Field Theory: Applications to Strongly Correlated Materials”,The 19th national conference of theoretical condensed matter physics and statistical physics, Xiangtan University, Xiangtan, Hunan, China, July 15-28, 2016.
23. "Computational search of novel superconductors", APS March Meeting, Baltimore,
MD, USA, March 13-18, 2016. 22. Workshop of computational physics, IOP and Guangxi University, "Spin Dynamics
and Superconducting Pairing in Iron-Based Superconductors,", Beihai, Guangxi, Dec. 19-22, 2015.
21. Physics Colloquium, University of Texas, Dallas,"Electronic correlation, magnetism
and superconductivity in iron pnictides and chalcogenides: a dynamical mean field
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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theory perspective", Dallas, Texas, Nov. 4, 2015. 20. Workshop on Transiton Metal Oxides, Superconductivity, and Interfaces, Diamond
Light Source Lab, "Electronic correlation, magnetism and superconductivity in iron pnictides and chalcogenides: a dynamical mean field theory perspective", Didcot, United Kingdom, Sept. 2-3, 2015.
19. Workshop on Electronic Structure Approaches & Applications to Quantum Matter,
Los Alamos National Lab, "Electronic correlation, magnetism and superconductivity in iron pnictides and chalcogenides: a dynamical mean field theory perspective", Santa Fe, New Mexico, May 21, 2015.
18. Condensed Matter Seminar, Rice University, "Electronic correlation, magnetism
and superconductivity in iron pnictides and chalcogenides: a dynamical mean field theory perspective", Houston, Texas, May 1, 2015.
17. Condensed Matter Seminar, Fudan University, "Electronic correlation, magnetism
and superconductivity in iron pnictides and chalcogenides: a dynamical mean field theory perspective", Shanghai, China, April 14, 2015.
16. Condensed Matter Seminar, Peking University, "Electronic correlation, magnetism
and superconductivity in iron pnictides and chalcogenides: a dynamical mean field theory perspective", Beijing, China, April 8, 2015.
15. "Correlation-enhanced electron-phonon coupling.", APS March Meeting, San
Antonio, TX, USA, 2015. 14. Physics Colloquium, Virginia Tech, "From quantummechanics to complex materials
by design", Blacksburg, Virginia, Feb. 2, 2015. 13. Physics Colloquium, University of California, Santa Cruz, "From quantum
mechanics to complex materials by design", Santa Cruz, California, Jan. 20, 2015. 12. Materials Science Division Seminar, Argonne National Lab., "From iron pnictide
superconductors to correlated functional materials by digital design", Argonne, Illinois, March 12, 2014.
11. Physics Colloquium, University of Illinois, Chicago, "From iron pnictide
superconductors to correlated functional materials by digital design", Chicago, Illinois, March 10, 2014.
10. Condensed Matter Seminar, Florida State University, "The iron-based
superconductors: itinerant magnets, doped Mott insulators or Hund's metals?", Tallahassee, FL, February 24, 2014.
9. Physics Colloquium, Ohio State University, "The iron-based superconductors:
itinerant magnets, doped Mott insulators or Hund's metals?", Columbus, OH, January 9, 2014.
Zhiping Yin, [email protected], http://dmft.bnu.edu.cn Department of Physics and Center for Advanced Quantum Studies Beijing Normal University, Beijing 100875, China
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8. MSE Colloquium, Boston University, "Where to look for high temperature superconductors and beyond", Boston, MA, December 9, 2013.
7. Condensed matter seminar, University of Virginia, "The Interplay of Correlation,
Electron-Phonon Coupling, Magnetism, and Superconductivity in High Tc Superconductors", CHARLOTTESVILLE, VA, October 17, 2013
6. International workshop on Recent developments in Fe-based high-temperature
superconductors, "Spin Dynamics and Superconductivity of Iron-based Superconductors: Realistic fully ab initio Many-Body Theory Calculations", Riverhead, NY, September 3-6, 2013.
5. ES2013: The 25th Annual Workshop on Recent Developments in Electronic
Structure Methods. "DFT+DMFT to Correlated Electronic Structures: Recent Developments and Applications to Iron-based Superconductors", College of William & Mary, Williamsburg, VA, June 11-14 (2013).
4. Joint MSE Colloquium with the Center for Computational Science (CCS),Boston
University, "Towards Computational Design of Correlated Functional Materials from First-Principles.", Boston, MA, April 5, 2013.
3. Condensed matter seminar, University of California, Berkeley, "Towards
Computational Design of Correlated Functional Materials from First-Principles.", Berkeley, CA, March 4, 2013.
2. "Impact of Hund's rule on the physics of the Fe-based superconductors.", APS
March Meeting, Baltimore, MD, USA, 2013. 1. "Electronic structure of iron-based superconductors from DFT+DMFT", 2012 EMN
Meeting, Orlando, FL, USA, April 2012.