Abstract

Qubits based on Majorana zero modes are a promising path towards topological quantum computing. Such qubits, though, are susceptible to quasiparticle poisoning which does not have to be small by topological argument. We study the main sources of the quasiparticle poisoning relevant for realistic devices-nonequilibrium above-gap quasiparticles and equilibrium localized subgap states. Depending on the parameters of the system and the architecture of the qubit either of these sources can dominate the qubit decoherence. However, we find in contrast to naive estimates that in moderately disordered, floating Majorana islands the quasiparticle poisoning can have timescales exceeding seconds.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Scalable designs for quasiparticle-poisoning-protected topological quantum computation with Majorana zero modes
Torsten Karzig ... Christina Knapp
Physical review. B | VOL. 95
Torsten Karzig, et. al.Torsten Karzig ... Christina Knapp
21 Jun 2017
Topological and geometrical quantum computation in cohesive Khovanov homotopy type theory
Juan Ospina
-
Juan OspinaJuan Ospina
21 May 2015
Phonon-mediated quasiparticle poisoning of superconducting microwave resonators
U Patel ... B L T Plourde
Physical review. B | VOL. 96
U Patel, et. al.U Patel ... B L T Plourde
07 Dec 2017
Quasiparticle Poisoning and Josephson Current Fluctuations Induced by Kondo Impurities
Lara Faoro ... Lev B Ioffe
Physical Review Letters | VOL. 101
Lara Faoro, et. al.Lara Faoro ... Lev B Ioffe
10 Dec 2008
View more papers

More From: Physical Review Letters

Paper Title
Journal
Date
Author
Interaction-Driven Quasi-Insulating Ground States of Gapped Electron-Doped Bilayer Graphene
Anna M Seiler ... R Thomas Weitz
Physical Review Letters | VOL. 133
Anna M Seiler, et. al.Anna M Seiler ... R Thomas Weitz
05 Aug 2024
Origin of Magnetism in a Supposedly Nonmagnetic Osmium Oxide
S Agrestini ... M Moretti Sala
Physical Review Letters | VOL. 133
S Agrestini, et. al.S Agrestini ... M Moretti Sala
05 Aug 2024
Erratum: Fractionalized Prethermalization in a Driven Quantum Spin Liquid [Phys. Rev. Lett. 130 , 226701 (2023)
Hui-Ke Jin ... Michael Knap
Physical Review Letters | VOL. 133
Hui-Ke Jin, et. al.Hui-Ke Jin ... Michael Knap
05 Aug 2024
Local Readout and Control of Current and Kinetic Energy Operators in Optical Lattices
Alexander Impertro ... Monika Aidelsburger
Physical Review Letters | VOL. 133
Alexander Impertro, et. al.Alexander Impertro ... Monika Aidelsburger
05 Aug 2024
View more papers