G
Guang-Can Guo
Researcher at University of Science and Technology of China
Publications - 545
Citations - 15193
Guang-Can Guo is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Quantum entanglement & Qubit. The author has an hindex of 53, co-authored 545 publications receiving 11582 citations. Previous affiliations of Guang-Can Guo include Center for Excellence in Education & Chinese Academy of Sciences.
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Journal ArticleDOI
Controlling Synthetic Spin-Orbit Coupling in a Silicon Quantum Dot with Magnetic Field
Xin Zhang,Yuan Zhou,Rui-Zi Hu,Rong-Long Ma,Ming Ni,Ke Wang,Gang Luo,Gang Cao,Gui-Lei Wang,Peihao Huang,Xuedong Hu,Hong-Wen Jiang,Hai-Ou Li,Guang-Can Guo,Guo-Ping Guo +14 more
TL;DR: In this paper, the anisotropy of spin-valley resonance in a silicon quantum dot was investigated by rotating the applied magnetic field in-plane, and the authors found a striking nonsinusoidal behavior of resonance amplitude that distinguishes s-SOC from the intrinsic spin-orbit coupling, and associated this behavior with the previously overlooked inplane transverse magnetic field gradient.
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Fulde–Ferrell superfluids in spinless ultracold Fermi gases
TL;DR: In this paper, the spinless Fulde-Ferrell (FF) phase was shown to emerge in spinless Fermi gases confined in optical lattice associated with nearest-neighbor interactions.
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Temporal Wheeler’s delayed-choice experiment based on cold atomic quantum memory
Ming-Xin Dong,Dong-Sheng Ding,Yi-Chen Yu,Ying-Hao Ye,Wei-Hang Zhang,En-Ze Li,Lei Zeng,Kan Zhang,Li Dachuang,Guang-Can Guo,Bao-Sen Shi +10 more
TL;DR: In this article, the authors demonstrate a delayed-choice experiment in an interface of light and atomic memory, in which the cold atomic memory makes the heralded single-photon divided into a superposition of atomic collective excitation and leaked pulse, thus acting as memory-based beam-splitters.
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Efficient superdense coding in the presence of non-Markovian noise
Bi-Heng Liu,Xiao-Min Hu,Yun-Feng Huang,Chuan-Feng Li,Guang-Can Guo,Antti Karlsson,Elsi-Mari Laine,Sabrina Maniscalco,Chiara Macchiavello,Jyrki Piilo +9 more
TL;DR: A superdense coding scheme with noise, where the decrease of entanglement in Alice's encoding state does not reduce the efficiency of the information transmission, paving the way for exploiting non-Markovianity to improve the efficiency and security of quantum information processing tasks.
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Geometric local-hidden-state model for some two-qubit states
TL;DR: In this paper, the geometric description of steering assemblages and the local-hidden-state (LHS) model were adopted to construct the optimal LHS model for some two-qubit states under continuous projective measurements.