TILT: Achieving Higher Fidelity on a Trapped-Ion Linear-Tape Quantum Computing Architecture
Publication
, Preprint
Wu, X-C; Debroy, DM; Ding, Y; Baker, JM; Alexeev, Y; Brown, KR; Chong, FT
October 29, 2020
Duke Scholars
Publication Date
October 29, 2020
Citation
APA
Chicago
ICMJE
MLA
NLM
Wu, X.-C., Debroy, D. M., Ding, Y., Baker, J. M., Alexeev, Y., Brown, K. R., & Chong, F. T. (2020). TILT: Achieving Higher Fidelity on a Trapped-Ion Linear-Tape Quantum
Computing Architecture.
Wu, Xin-Chuan, Dripto M. Debroy, Yongshan Ding, Jonathan M. Baker, Yuri Alexeev, Kenneth R. Brown, and Frederic T. Chong. “TILT: Achieving Higher Fidelity on a Trapped-Ion Linear-Tape Quantum
Computing Architecture,” October 29, 2020.
Wu X-C, Debroy DM, Ding Y, Baker JM, Alexeev Y, Brown KR, et al. TILT: Achieving Higher Fidelity on a Trapped-Ion Linear-Tape Quantum
Computing Architecture. 2020.
Wu, Xin-Chuan, et al. TILT: Achieving Higher Fidelity on a Trapped-Ion Linear-Tape Quantum
Computing Architecture. 29 Oct. 2020.
Wu X-C, Debroy DM, Ding Y, Baker JM, Alexeev Y, Brown KR, Chong FT. TILT: Achieving Higher Fidelity on a Trapped-Ion Linear-Tape Quantum
Computing Architecture. 2020.
Publication Date
October 29, 2020