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Guo Xuan Chan
Guo Xuan Chan
Postdoc, Virginia Tech
Verified email at vt.edu
Title
Cited by
Cited by
Year
Suppression of leakage for a charge qubit in triangular triple quantum dots
GX Chan, X Wang
Advanced Quantum Technologies 2 (12), 1900072, 2019
62019
A tunable charge qubit based on barrier-controlled triple quantum dots
XC Yang, GX Chan, X Wang
10.1103/PhysRevA.98.032334, 2018
52018
Charge noise suppression in capacitively coupled singlet-triplet spin qubits under magnetic field
GX Chan, JP Kestner, X Wang
Physical Review B 103 (16), L161409, 2021
22021
Coupling two charge qubits via a superconducting resonator operating in the resonant and dispersive regimes
C Zhang, GX Chan, X Wang, ZY Xue
Physical Review A 106 (3), 032608, 2022
2022
Sign switching of superexchange mediated by a few electrons in a nonuniform magnetic field
GX Chan, X Wang
Physical Review A 106 (2), 022420, 2022
2022
Theory on electron-phonon spin dehphasing in GaAs multi-electron double quantum dots
G He, GX Chan, X Wang
arXiv preprint arXiv:2203.16138, 2022
2022
Universal control of superexchange in linear triple quantum dots with an empty mediator
GX Chan, H Peihao, X Wang
arXiv preprint arXiv:2203.15521, 2022
2022
Microscopic theory on magnetic-field-tuned sweet spot of exchange interactions in multielectron quantum-dot systems
GX Chan, X Wang
arXiv preprint arXiv:2202.02308, 2022
2022
Robust entangling gate for capacitively coupled few-electron singlet-triplet qubits
GX Chan, X Wang
arXiv preprint arXiv:2201.01583, 2022
2022
Holonomic protected charge qubits coupled via a superconducting resonator
C Zhang, GX Chan, X Wang, ZY Xue
arXiv preprint arXiv:2012.14129, 2020
2020
On the validity of microscopic calculations of double-quantum-dot spin qubits based on Fock-Darwin states
GX Chan, X Wang
SCIENCE CHINA Physics, Mechanics & Astronomy 61 (4), 040313, 2018
2018
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Articles 1–11