郭国平
郭国平
点赞:
教师博客
2018
发布时间:2021-07-15点击次数:
under review 2018. [Link]
, Cryogenic Modeling of Standard CMOS for Quantum Computing, https://arxiv.org/abs/1811.11497New Journal of Physics 20, 085001, 2018. [Link]
, Experimental demonstration of work fluctuations along a shortcut to adiabaticity with a superconducting Xmon qubit,New Journal of Physics 20, 065003, 2018. [Link]
,Nano Research 11, 5812, 2018. [Link]
, Stressed carbon nanotube devices for high tunability, high quality factor, single mode GHz resonators,Chinese Physics B 27, 076105, 2018. [Link]
, Charge noise acting on graphene double quantum dots in circuit quantum electrodynamics architecture,Journal of Applied Physics 123, 174305, 2018. [Link]
, Measuring the complex admittance and tunneling rate of a germanium hut wire hole quantum dot,Chinese Physics B 27, 090308, 2018. [Link]
, Spin manipulation in semiconductor quantum dots qubit,Cryogenics accepted, , 2018. [Link]
, MOSFET Characterization and Modeling at Cryogenic Temperatures,Applied Physics Letter 113, 163101, (2018). [Link]
, Three-leaf dart-shaped single-crystal BN formation promoted by surface oxygen,Science Bulletin 63, 964, (2018). [Link]
, 64-qubit quantum circuit simulation,Chinese Physics B 27, 020305, (2018). [Link]
, Qubits based on semiconductor quantum dots,Physics Review Applied 9, 024015, (2018). [Link]
, Controlled Quantum Operations of a Semiconductor Three-Qubit System,Nano letter 18, 2091, (2018). [Link]
, Coupling a Germanium Hut Wire Hole Quantum Dot to a Superconducting Microwave Resonator,Nature Communication 9, 383, (2018). [Link]
, Strong indirect coupling between graphene-based mechanical resonators via a phonon cavity,Physics Review B 91, 245102, (2018). [Link]
, Direct observation of the orbital spin Kondo effect in gallium arsenide quantum dots,