Electronic structures and photoemission spectroscopy

Electronic structure and spin–orbit coupling in ternary transition metal chalcogenides Cu2TlX 2 (X = Se, Te)

Chinese Physics B IOP Publishing 31:3 (2022) 037101

Authors:

Na Qin, Xian Du, Yangyang Lv, Lu Kang, Zhongxu Yin, Jingsong Zhou, Xu Gu, Qinqin Zhang, Runzhe Xu, Wenxuan Zhao, Yidian Li, Shuhua Yao, Yanfeng Chen, Zhongkai Liu, Lexian Yang, Yulin Chen

Direct observation of the spin–orbit coupling effect in magnetic Weyl semimetal Co3Sn2S2

npj Quantum Materials Springer Nature 7:1 (2022) 11

Authors:

DF Liu, EK Liu, QN Xu, JL Shen, YW Li, D Pei, AJ Liang, P Dudin, TK Kim, C Cacho, YF Xu, Y Sun, LX Yang, ZK Liu, C Felser, SSP Parkin, YL Chen

Pressure-induced superconductivity and structure phase transition in Pt2HgSe3

npj Quantum Materials Springer Nature 6:1 (2021) 98

Authors:

Cuiying Pei, Suhua Jin, Peihao Huang, Anna Vymazalova, Lingling Gao, Yi Zhao, Weizheng Cao, Changhua Li, Peter Nemes-Incze, Yulin Chen, Hanyu Liu, Gang Li, Yanpeng Qi

Observation of electronic structure and electron-boson coupling in the low-dimensional superconductor Ta4Pd3Te16

Physical Review B American Physical Society (APS) 104:22 (2021) l220501

Authors:

HF Yang, XL Liu, SM Nie, WJ Shi, K Huang, HJ Zheng, J Zhang, YW Li, AJ Liang, MX Wang, LX Yang, YF Guo, ZK Liu, YL Chen

Realizing topologically ordered states on a quantum processor.

Science (New York, N.Y.) 374:6572 (2021) 1237-1241

Authors:

KJ Satzinger, Y-J Liu, A Smith, C Knapp, M Newman, C Jones, Z Chen, C Quintana, X Mi, A Dunsworth, C Gidney, I Aleiner, F Arute, K Arya, J Atalaya, R Babbush, JC Bardin, R Barends, J Basso, A Bengtsson, A Bilmes, M Broughton, BB Buckley, DA Buell, B Burkett, N Bushnell, B Chiaro, R Collins, W Courtney, S Demura, AR Derk, D Eppens, C Erickson, L Faoro, E Farhi, AG Fowler, B Foxen, M Giustina, A Greene, JA Gross, MP Harrigan, SD Harrington, J Hilton, S Hong, T Huang, WJ Huggins, LB Ioffe, SV Isakov, E Jeffrey, Z Jiang, D Kafri, K Kechedzhi, T Khattar, S Kim, PV Klimov, AN Korotkov, F Kostritsa, D Landhuis, P Laptev, A Locharla, E Lucero, O Martin, JR McClean, M McEwen, KC Miao, M Mohseni, S Montazeri, W Mruczkiewicz, J Mutus, O Naaman, M Neeley, C Neill, MY Niu, TE O'Brien, A Opremcak, B Pató, A Petukhov, NC Rubin, D Sank, V Shvarts, D Strain, M Szalay, B Villalonga, TC White, Z Yao, P Yeh, J Yoo, A Zalcman, H Neven, S Boixo, A Megrant, Y Chen, J Kelly, V Smelyanskiy, A Kitaev, M Knap, F Pollmann, P Roushan

Abstract:

The discovery of topological order has revised the understanding of quantum matter and provided the theoretical foundation for many quantum error–correcting codes. Realizing topologically ordered states has proven to be challenging in both condensed matter and synthetic quantum systems. We prepared the ground state of the toric code Hamiltonian using an efficient quantum circuit on a superconducting quantum processor. We measured a topological entanglement entropy near the expected value of –ln2 and simulated anyon interferometry to extract the braiding statistics of the emergent excitations. Furthermore, we investigated key aspects of the surface code, including logical state injection and the decay of the nonlocal order parameter. Our results demonstrate the potential for quantum processors to provide insights into topological quantum matter and quantum error correction.