Evidence of topological superconductivity in planar Josephson junctions

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Evidence of topological superconductivity in planar Josephson junctions. / Fornieri, Antonio; Whiticar, Alexander M.; Setiawan, F.; Marín, Elías Portolés; Drachmann, Asbjørn C. C.; Keselman, Anna; Gronin, Sergei; Thomas, Candice; Wang, Tian; Kallaher, Ray; Gardner, Geoffrey C.; Berg, Erez; Manfra, Michael J.; Stern, Ady; Marcus, Charles M.; Nichele, Fabrizio.

I: Nature, Bind 569, 02.05.2019, s. 89-92.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Fornieri, A, Whiticar, AM, Setiawan, F, Marín, EP, Drachmann, ACC, Keselman, A, Gronin, S, Thomas, C, Wang, T, Kallaher, R, Gardner, GC, Berg, E, Manfra, MJ, Stern, A, Marcus, CM & Nichele, F 2019, 'Evidence of topological superconductivity in planar Josephson junctions', Nature, bind 569, s. 89-92. https://doi.org/10.1038/s41586-019-1068-8

APA

Fornieri, A., Whiticar, A. M., Setiawan, F., Marín, E. P., Drachmann, A. C. C., Keselman, A., Gronin, S., Thomas, C., Wang, T., Kallaher, R., Gardner, G. C., Berg, E., Manfra, M. J., Stern, A., Marcus, C. M., & Nichele, F. (2019). Evidence of topological superconductivity in planar Josephson junctions. Nature, 569, 89-92. https://doi.org/10.1038/s41586-019-1068-8

Vancouver

Fornieri A, Whiticar AM, Setiawan F, Marín EP, Drachmann ACC, Keselman A o.a. Evidence of topological superconductivity in planar Josephson junctions. Nature. 2019 maj 2;569:89-92. https://doi.org/10.1038/s41586-019-1068-8

Author

Fornieri, Antonio ; Whiticar, Alexander M. ; Setiawan, F. ; Marín, Elías Portolés ; Drachmann, Asbjørn C. C. ; Keselman, Anna ; Gronin, Sergei ; Thomas, Candice ; Wang, Tian ; Kallaher, Ray ; Gardner, Geoffrey C. ; Berg, Erez ; Manfra, Michael J. ; Stern, Ady ; Marcus, Charles M. ; Nichele, Fabrizio. / Evidence of topological superconductivity in planar Josephson junctions. I: Nature. 2019 ; Bind 569. s. 89-92.

Bibtex

@article{37a2a51ea8a94f4f806ee6574a234a72,
title = "Evidence of topological superconductivity in planar Josephson junctions",
abstract = " Majorana zero modes are quasiparticle states localized at the boundaries of topological superconductors that are expected to be ideal building blocks for fault-tolerant quantum computing. Several observations of zero-bias conductance peaks measured in tunneling spectroscopy above a critical magnetic field have been reported as experimental indications of Majorana zero modes in superconductor/semiconductor nanowires. On the other hand, two dimensional systems offer the alternative approach to confine Ma jorana channels within planar Josephson junctions, in which the phase difference {\phi} between the superconducting leads represents an additional tuning knob predicted to drive the system into the topological phase at lower magnetic fields. Here, we report the observation of phase-dependent zero-bias conductance peaks measured by tunneling spectroscopy at the end of Josephson junctions realized on a InAs/Al heterostructure. Biasing the junction to {\phi} ~ {\pi} significantly reduces the critical field at which the zero-bias peak appears, with respect to {\phi} = 0. The phase and magnetic field dependence of the zero-energy states is consistent with a model of Majorana zero modes in finite-size Josephson junctions. Besides providing experimental evidence of phase-tuned topological superconductivity, our devices are compatible with superconducting quantum electrodynamics architectures and scalable to complex geometries needed for topological quantum computing. ",
keywords = "cond-mat.mes-hall, cond-mat.supr-con",
author = "Antonio Fornieri and Whiticar, {Alexander M.} and F. Setiawan and Mar{\'i}n, {El{\'i}as Portol{\'e}s} and Drachmann, {Asbj{\o}rn C. C.} and Anna Keselman and Sergei Gronin and Candice Thomas and Tian Wang and Ray Kallaher and Gardner, {Geoffrey C.} and Erez Berg and Manfra, {Michael J.} and Ady Stern and Marcus, {Charles M.} and Fabrizio Nichele",
note = "[Qdev]",
year = "2019",
month = may,
day = "2",
doi = "10.1038/s41586-019-1068-8",
language = "English",
volume = "569",
pages = "89--92",
journal = "Nature",
issn = "0028-0836",
publisher = "nature publishing group",

}

RIS

TY - JOUR

T1 - Evidence of topological superconductivity in planar Josephson junctions

AU - Fornieri, Antonio

AU - Whiticar, Alexander M.

AU - Setiawan, F.

AU - Marín, Elías Portolés

AU - Drachmann, Asbjørn C. C.

AU - Keselman, Anna

AU - Gronin, Sergei

AU - Thomas, Candice

AU - Wang, Tian

AU - Kallaher, Ray

AU - Gardner, Geoffrey C.

AU - Berg, Erez

AU - Manfra, Michael J.

AU - Stern, Ady

AU - Marcus, Charles M.

AU - Nichele, Fabrizio

N1 - [Qdev]

PY - 2019/5/2

Y1 - 2019/5/2

N2 - Majorana zero modes are quasiparticle states localized at the boundaries of topological superconductors that are expected to be ideal building blocks for fault-tolerant quantum computing. Several observations of zero-bias conductance peaks measured in tunneling spectroscopy above a critical magnetic field have been reported as experimental indications of Majorana zero modes in superconductor/semiconductor nanowires. On the other hand, two dimensional systems offer the alternative approach to confine Ma jorana channels within planar Josephson junctions, in which the phase difference {\phi} between the superconducting leads represents an additional tuning knob predicted to drive the system into the topological phase at lower magnetic fields. Here, we report the observation of phase-dependent zero-bias conductance peaks measured by tunneling spectroscopy at the end of Josephson junctions realized on a InAs/Al heterostructure. Biasing the junction to {\phi} ~ {\pi} significantly reduces the critical field at which the zero-bias peak appears, with respect to {\phi} = 0. The phase and magnetic field dependence of the zero-energy states is consistent with a model of Majorana zero modes in finite-size Josephson junctions. Besides providing experimental evidence of phase-tuned topological superconductivity, our devices are compatible with superconducting quantum electrodynamics architectures and scalable to complex geometries needed for topological quantum computing.

AB - Majorana zero modes are quasiparticle states localized at the boundaries of topological superconductors that are expected to be ideal building blocks for fault-tolerant quantum computing. Several observations of zero-bias conductance peaks measured in tunneling spectroscopy above a critical magnetic field have been reported as experimental indications of Majorana zero modes in superconductor/semiconductor nanowires. On the other hand, two dimensional systems offer the alternative approach to confine Ma jorana channels within planar Josephson junctions, in which the phase difference {\phi} between the superconducting leads represents an additional tuning knob predicted to drive the system into the topological phase at lower magnetic fields. Here, we report the observation of phase-dependent zero-bias conductance peaks measured by tunneling spectroscopy at the end of Josephson junctions realized on a InAs/Al heterostructure. Biasing the junction to {\phi} ~ {\pi} significantly reduces the critical field at which the zero-bias peak appears, with respect to {\phi} = 0. The phase and magnetic field dependence of the zero-energy states is consistent with a model of Majorana zero modes in finite-size Josephson junctions. Besides providing experimental evidence of phase-tuned topological superconductivity, our devices are compatible with superconducting quantum electrodynamics architectures and scalable to complex geometries needed for topological quantum computing.

KW - cond-mat.mes-hall

KW - cond-mat.supr-con

U2 - 10.1038/s41586-019-1068-8

DO - 10.1038/s41586-019-1068-8

M3 - Journal article

C2 - 31019303

VL - 569

SP - 89

EP - 92

JO - Nature

JF - Nature

SN - 0028-0836

ER -

ID: 212294709