Enhancing spin coherence in optically addressable molecular qubits through host-matrix control
S. L. Bayliss, P. Deb, D. W. Laorenza, M. Onizhuk, G. Galli, D. E. Freedman, D. D. Awschalom. Enhancing spin coherence in optically addressable molecular qubits through host-matrix control. Phys. Rev. X. 2022. Vol. 12. 10.1103/PhysRevX.12.031028.
Tunable Cr4+ molecular color centers
D. W. Laorenza, A. Kairalapova, S. L. Bayliss, T. Goldzak, S. M. Greene, L. R. Weiss, P. Deb, P. J. Mintun, K. A. Collins, D. D. Awschalom, T. C. Berkelbach, D. E. Freedman. Tunable Cr4+ molecular color centers. J. Am. Chem. Soc. 2021. 10.1021/jacs.1c10145.
Optically addressable molecular spins for quantum information processing
S.L. Bayliss, D.W. Laorenza, P.J. Mintun, B. Diler, D.E. Freedman, D.D. Awschalom. Optically addressable molecular spins for quantum information processing. Science. 2020. 10.1126/science.abb9352.
Purcell enhancement of a single silicon carbide color center with coherent spin control
A. L. Crook, C. P. Anderson, K. C. Miao, A. Bourassa, H. Lee, S. L. Bayliss, D. O. Bracher, X. Zhang, H. Abe, T. Ohshima, E. L. Hu, D. D. Awschalom. Purcell enhancement of a single silicon carbide color center with coherent spin control. Nano. Lett.. 2020. Vol. 20. Pp. 3427. 10.1021/acs.nanolett.0c00339.
Electrically driven optical interferometry with spins in silicon carbide
K. C. Miao, A. Bourassa, C. P. Anderson, S. J. Whiteley, A. L. Crook, S. L. Bayliss, G. Wolfowicz, G. Thiering, P. Udvarhelyi, V. Ivady, H. Abe, T. Ohshima, A. Gali, D. D. Awschalom. Electrically driven optical interferometry with spins in silicon carbide. Science Advances. 2019. Vol. 5, eaay0527.
Awschalom Group
Sam Bayliss
Postdoctoral alumnus;
Electronics and Nanoscale Division of the James Watt School of Engineering,
University of Glasgow- Contact: sam.bayliss@glasgow.ac.uk