Embracing imperfection for quantum technologies
C. P. Anderson, D. D. Awschalom. Embracing imperfection for quantum technologies. 2023. Physics Today 76 (8), 26–33. 10.1063/PT.3.5290
Generalized scaling of spin qubit coherence in over 12,000 host materials
S. Kanai, F. J.Heremans, H. Seo, G. Wolfowicz, C. P. Anderson, S. E. Sullivan, M. Onizhuk, G. Galli, D. D. Awschalom, H. Ohno. Generalized scaling of spin qubit coherence in over 12,000 host materials. Proc. Natl. Acad. Sci. U.S.A. 2022. Vol. 119. 10.1073/pnas.2121808119.
Five-second coherence of a single spin with single-shot readout in silicon carbide
C. P. Anderson, E. O. Glen, C. Zeledon, A. Bourassa, Y. Jin, Y. Zhu, C. Vorwerk, A. L. Crook, H. Abe, J. Ul-Hassan, T. Ohshima, N. T. Son, G. Galli, D. D. Awschalom. Five-second coherence of a single spin with single-shot readout in silicon carbide. 2022. Sci. Adv. Vol. 8. 10.1126/sciadv.abm5912.
Quantum guidelines for solid-state spin defects
G. Wolfowicz, F. J. Heremans, C. P. Anderson, S. Kanai, H. Seo, A. Gali, G. Galli, D. D. Awschalom. Quantum guidelines for solid-state spin defects. Nat Rev Mater. 2021. Vol. 6. 10.1038/s41578-021-00306-y.
Probing the Coherence of Solid-State Qubits at Avoided Crossings
M. Onizhuk, K. C. Miao, J. P. Blanton, H. Ma, C. P. Anderson, A. Bourassa, D. D. Awschalom, G. Galli. Probing the Coherence of Solid-State Qubits at Avoided Crossings. PRX Quantum. 2021. Vol. 2. 10.1103/PRXQuantum.2.010311.
Entanglement and control of single nuclear spins in isotopically engineered silicon carbide
A. Bourassa, C. P. Anderson, K. C. Miao, M. Onizhuk, H. Ma, A. L. Crook, H. Abe, J. Ul-Hassan, T. Ohshima, N. T. Son, G. Galli, D. D. Awschalom. Entanglement and control of single nuclear spins in isotopically engineered silicon carbide. Nat. Mater. 2020. 10.1038/s41563-020-00802-6.
Universal coherence protection in a solid-state spin qubit
K. C. Miao, J. P. Blanton, C. P. Anderson, A. Bourassa, A. L. Crook, G. Wolfowicz, H. Abe, T. Ohshima, D. D. Awschalom. Universal coherence protection in a solid-state spin qubit. Science. 2020. 10.1126/science.abc5186.
Developing silicon carbide for quantum spintronics
N. T. Son, C. P. Anderson, A. Bourassa, K. C. Miao, C. Babin, M. Widmann, M. Niethammer, J. U. Hassan, N. Morioka, I. G. Ivanov, F. Kaiser, J. Wrachtrup, D. D. Awschalom. Developing silicon carbide for quantum spintronics. Appl. Phys. Lett.. 2020. Vol. 116. Pg. 190501.
Vanadium spin qubits as telecom quantum emitters in silicon carbide
G. Wolfowicz, C. P. Anderson, B. Diler, O. G. Poluektov, F. J. Heremans, D. D. Awschalom. Vanadium spin qubits as telecom quantum emitters in silicon carbide. Science Advances. 2020. eaaz1192.
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.