Number-conserving analysis of measurement-based braiding with Majorana zero modes
Abstract
Majorana-based quantum computation seeks to encode information nonlocally in pairs of Majorana zero modes, thereby isolating qubit states from a local noisy environment. In addition to long coherence times, the attractiveness of Majorana-based quantum computing relies on achieving topologically protected Clifford gates from braiding operations. Recent works have conjectured that mean-field BCS calculations may fail to account for nonuniversal corrections to the Majorana braiding operations. Such errors would be detrimental to Majorana-based topological quantum computing schemes. In this work, we develop a particle-number-conserving approach for measurement-based topological quantum computing and investigate the effect of quantum phase fluctuations. We demonstrate that braiding transformations are indeed topologically protected in charge-protected Majorana-based quantum computing schemes.
Additional Information
© 2020 American Physical Society. Received 3 October 2019; revised manuscript received 29 December 2019; accepted 25 February 2020; published 11 March 2020. We are grateful to T. Karzig, C. Nayak, and D. Pikulin for stimulating discussions. C.K. acknowledges support from the NSF GRFP under Grant No. DGE 114085 and from the Walter Burke Institute for Theoretical Physics at Caltech. Part of this work was performed at the Aspen Center for Physics, which is supported by National Science Foundation Grant No. PHY-1607611.Attached Files
Published - PhysRevB.101.125108.pdf
Submitted - 1909.10521.pdf
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Additional details
- Eprint ID
- 101891
- Resolver ID
- CaltechAUTHORS:20200312-081932810
- DGE-114085
- NSF Graduate Research Fellowship
- Walter Burke Institute for Theoretical Physics, Caltech
- PHY-1607611
- NSF
- Created
-
2020-03-12Created from EPrint's datestamp field
- Updated
-
2021-11-16Created from EPrint's last_modified field
- Caltech groups
- Walter Burke Institute for Theoretical Physics