2009 - Fellow, The World Academy of Sciences
Guang-Can Guo mostly deals with Quantum mechanics, Quantum entanglement, Quantum network, Quantum and Quantum information. His Quantum mechanics and Quantum channel, Quantum error correction, Quantum technology, Open quantum system and W state investigations all form part of his Quantum mechanics research activities. Guang-Can Guo has included themes like Quantum cryptography, Quantum key distribution and Quantum operation in his Quantum network study.
His work carried out in the field of Quantum key distribution brings together such families of science as Electronic engineering and Topology. His Quantum research incorporates themes from Statistical physics and Optics, Photon. Guang-Can Guo works mostly in the field of Photon, limiting it down to concerns involving Quantum optics and, occasionally, Condensed matter physics.
His primary scientific interests are in Quantum mechanics, Quantum, Photon, Quantum entanglement and Optics. His study in Quantum information, Qubit, Quantum network, Quantum computer and Quantum channel is done as part of Quantum mechanics. His studies in Quantum network integrate themes in fields like Quantum cryptography and Quantum technology, Quantum error correction, Open quantum system.
His work deals with themes such as Photonics, Theoretical physics and Statistical physics, which intersect with Quantum. His Photon research incorporates elements of Spontaneous parametric down-conversion, Quantum optics, Polarization, Atomic physics and Quantum information science. His research combines Topology and Quantum entanglement.
His primary areas of investigation include Quantum, Photon, Quantum entanglement, Quantum mechanics and Statistical physics. His Quantum research includes elements of Photonics and Topology. Guang-Can Guo interconnects Optoelectronics, Quantum channel and Polarization in the investigation of issues within Photon.
His Resonator study in the realm of Optoelectronics connects with subjects such as Silicon carbide. Quantum information science, Quantum network and Quantum nonlocality are among the areas of Quantum entanglement where the researcher is concentrating his efforts. His study ties his expertise on Quantum computer together with the subject of Qubit.
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Efficient scheme for two-atom entanglement and quantum information processing in cavity QED
Shi-Biao Zheng;Shi-Biao Zheng;Guang-Can Guo.
Physical Review Letters (2000)
Preserving Coherence in Quantum Computation by Pairing Quantum Bits
Lu-Ming Duan;Guang-Can Guo.
Physical Review Letters (1997)
Probabilistic Cloning and Identification of Linearly Independent Quantum States
Lu-Ming Duan;Guang-Can Guo.
Physical Review Letters (1998)
Experimental control of the transition from Markovian to non-Markovian dynamics of open quantum systems
Bi-Heng Liu;Li Li;Yun-Feng Huang;Chuan-Feng Li.
Nature Physics (2011)
Quantum secret sharing without entanglement
Guo-Ping Guo;Guang-Can Guo.
Physics Letters A (2003)
Correction: Corrigendum: Ultrafast universal quantum control of a quantum-dot charge qubit using Landau–Zener–Stückelberg interference
Gang Cao;Hai-Ou Li;Tao Tu;Li Wang.
Nature Communications (2013)
Probabilistic teleportation and entanglement matching
Wan-Li Li;Chuan-Feng Li;Guang-Can Guo.
Physical Review A (2000)
Experimental investigation of classical and quantum correlations under decoherence
Jin-Shi Xu;Xiao-Ye Xu;Chuan-Feng Li;Cheng-Jie Zhang.
Nature Communications (2010)
Faithful remote state preparation using finite classical bits and a nonmaximally entangled state
Ming-Yong Ye;Yong-Sheng Zhang;Guang-Can Guo.
Physical Review A (2004)
Reducing decoherence in quantum-computer memory with all quantum bits coupling to the same environment
Lu Ming Duan;Guang Can Guo.
Physical Review A (1998)
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