Frolov group PhD Theses
Frolov Research Group Zenodo Community (all our data, and code)
Frolov research group GitHub (interactive data and code)

M. Gomanko, E.J. de Jong, Y. Jiang, S.G. Schellingerhout, E.P.A.M. Bakkers, S.M. Frolov
Spin and Orbital Spectroscopy in the Absence of Coulomb Blockade in Lead Telluride Nanowire Quantum Dots
arXiv:2111.13242 || Zenodo || In open peer review at SciPost

S.G. Schellingerhout, E.J. de Jong, M. Gomanko, X. Guan, Y. Jiang, M.S.M. Hoskam, S. Koelling, O. Moutanabbir, J. Jung, M.A. Verheijen, S.M. Frolov, E.P.A.M. Bakkers
Growth of PbTe nanowires by Molecular Beam Epitaxy
arXiv:2110.12789 || Zenodo

G. Badawy, B. Zhang, T. Rauch, J. Momand, S. Koelling, J. Jung, S. Gazibegovic, O. Moutanabbir, B.J. Kooi, S. Botti, M.A. Verheijen, S.M. Frolov, E.P.A.M. Bakkers
Electronic Structure and Epitaxy of CdTe Shells on InSb Nanowires
arXiv:2111.05126 || Zenodo

Tasnum Reza, Sergey M. Frolov, David Pekker
A proposal to extract and enhance four-Majorana interactions in hybrid nanowires
arXiv:2110.04778 || Zenodo || In open peer review at SciPost

P. Yu, B.D. Woods, J. Chen, G. Badawy, E.P.A.M. Bakkers, T.D. Stanescu, S.M. Frolov
Delocalized states in three-terminal superconductor-semiconductor nanowire devices
arXiv:2108.07327 || Zenodo || In open peer review at SciPost

S. Mudi, S.M. Frolov
Model for missing Shapiro steps due to bias-dependent resistance
arXiv:2106.00495 || GitHub || In open peer review at SciPost

H. Wu, P. Zhang, J.P.T. Stenger, Z. Su, J. Chen, G. Badawy, S. Gazibegovic, E.P.A.M. Bakkers, S.M. Frolov
Triple Andreev dot chains in semiconductor nanowires
arXiv:2105.08636 || Zenodo || In open peer review at SciPost

M.J.A. Jardine, J.P.T. Stenger, Y. Jiang, E.J. de Jong, W. Wang, A.C. Bleszynski Jayich, S.M. Frolov
Integrating micromagnets and hybrid nanowires for topological quantum computing
arXiv:2104.05130 || GitHub || Zenodo || SciPost Physics 11, 090 (2021)

M. Pendharkar, B. Zhang, H. Wu, A. Zarassi, P. Zhang, C. P. Dempsey, J. S. Lee, S. D. Harrington, G. Badawy, M. Rossi, R. op het Veld, S. Gazibegovic, J. Jung, A. -H. Chen, M. A. Verheijen, M. Hocevar, E. P. A. M. Bakkers, C. J. Palmstrøm, S. M. Frolov
Parity-preserving and magnetic field resilient superconductivity in indium antimonide nanowires with tin shells
arXiv:1912.06071 || Zenodo || GitHub || Science 372 508 (2021)

P. Yu, J. Chen, M. Gomanko, G. Badawy, E.P.A.M. Bakkers, K. Zuo, V. Mourik, S.M. Frolov
Non-Majorana states yield nearly quantized conductance in superconductor-semiconductor nanowire devices
arxiv:2004.08583 || Zenodo || GitHub || Nat. Phys. 17 482 (2021)

P. Zhang, H. Wu, J. Chen, S.A. Khan, P. Krogstrup, D. Pekker, S.M. Frolov
Evidence of Andreev blockade in a double quantum dot coupled to a superconductor
arXiv:2102.03283 || Zenodo

Y. Jiang, E.J. de Jong, V. van de Sande, S. Gazibegovic, G. Badawy, E.P.A.M. Bakkers, S.M. Frolov
Hysteretic magnetoresistance in nanowire devices due to stray fields induced by micromagnets
arxiv:2007.05956 || GitHub || Nanotechnology 32 095001 (2021)

S.M. Frolov, M.J. Manfra, J.D. Sau
Topological superconductivity in hybrid devices 
arxiv:1912:11094 || Nat. Phys. 16718–724 (2020)

Z. Su, R.Zitko, P. Zhang, H. Wu, D. Car, S.R. Plissard, S. Gazibegovic, G.H.A. Badawy, M. Hocevar, J. Chen, E.P.A.M. Bakkers, S.M. Frolov
Erasing odd-parity states in semiconductor quantum dots coupled to superconductors
arXiv:1904.05354 || PRB 101, 235315 (2020)

J. Chen, B.D. Woods, P. Yu, M. Hocevar, D. Car, S.R. Plissard, E.P.A.M. Bakkers, T.D. Stanescu, S.M. Frolov
Ubiquitous non-Majorana Zero-Bias Conductance Peaks in Nanowire Devices
arXiv:1902.02773 || Zenodo || PRL 123, 107703 (2019)

B.D. Woods, J. Chen, S.M. Frolov, T.D. Stanescu
Zero-energy pinning of topologically-trivial bound states in multi-band semiconductor-superconductor nanowires
arXiv:1902.02772 || PRB 100, 125407 (2019)

David Pekker, Po Zhang, Sergey M. Frolov
Theory of Andreev Blockade in a Double Quantum Dot with a Superconducting Lead
arXiv:1810.05112 || Zenodo || SciPost Physics 11, 081 (2021)

F. Vigneau, R. Mizokuchi, D.C. Zanuz, X.H. Huang, S. Tan, R. Maurand, S. Frolov, A. Sammak, G. Scappucci, F. Lefloch, S. De Franceschi
Germanium quantum well Josephson field effect transistors and interferometers
arXiv:1810.05012 || Nano Lett 19, 1023 (2019)

John P. T. Stenger, Michael Hatridge, Sergey M. Frolov, David Pekker
Braidonium: a braiding quantum circuit based on the 4π Josephson effect
arXiv:1808.03309  ||  PRB 99, 035307 (2019)

M.J.A. Stoutimore, A.N. Rossolenko, V.V. Bolginov, V.A. Oboznov, A.Y. Rusanov, N. Pugach, S.M. Frolov, V.V. Ryazanov, D.J. Van Harlingen
Second-harmonic current-phase relation in Josephson junctions with ferromagnetic barriers
arXiv:1805.12546 || PRL 121, 177702 (2018)

J.P.T. Stenger, B.D. Woods, S.M. Frolov, T.D. Stanescu
Control and detection of Majorana bound states in quantum dot arrays
arXiv:1805.08119  || PRB 98, 085407 (2018)

Z. Su, A. Zarassi, J.-F. Hsu, P. San-Jose, E. Prada, R. Aguado, E.J.H. Lee, S. Gazibegovic, R. Op het Veld, D. Car, S.R. Plissard, M. Hocevar, M. Pendharkar, J.S. Lee, J.A. Logan, C. J. Palmstrom, E.P.A.M. Bakkers, S. M. Frolov
Mirage Andreev spectra generated by mesoscopic leads in nanowire quantum dots
arXiv:1805.04289  || PRL 121, 127705 (2018)

K. Zuo, V. Mourik, D.B. Szombati, B. Nijholt, D.J. van Woerkom, A. Geresdi, J. Chen, V.P. Ostroukh, A.R. Akhmerov, S.R. Plissard, D. Car, E.P.A.M. Bakkers, D.I. Pikulin, L.P. Kouwenhoven, S.M. Frolov
Supercurrent interference in few-mode nanowire Josephson junctions
arXiv:1706.03331  ||  PRL 119, 187704 (2017)

Z. Su, A. B. Tacla, M. Hocevar, D. Car, S. R. Plissard, E. P.A.M. Bakkers, A. J. Daley, D. Pekker, S. M. Frolov
Andreev Molecules in Semiconductor Nanowire Double Quantum Dots
arXiv:1611.00727  ||  Nat.Comm. 8, 585 (2017)

D. Kotekar-Patil, B.-M. Nguyen, J. Yoo, S. A. Dayeh, S. M. Frolov
Quasiballistic quantum transport through Ge/Si core/shell nanowires
arXiv:1611.02722  ||  Nanotechnology 28, 385204 (2017)

A. Zarassi, Z. Su, J. Danon, J. Schwenderling, M. Hocevar, B.-M. Nguyen, J. Yoo, S. A. Dayeh, S. M. Frolov
Magnetic Field Evolution of Spin Blockade in Ge/Si Nanowire Double Quantum Dots
arXiv:1610.04596  ||  PRB 95, 155416 (2017)

J. Chen, P. Yu, J. Stenger, M. Hocevar, D. Car, S. R. Plissard, E. P. A. M. Bakkers, T. D. Stanescu, S. M. Frolov
Experimental phase diagram of zero-bias conductance peaks in superconductor/semiconductor nanowire devices
arXiv:1610.04555  || Zenodo ||  Sci. Adv. 3, e1701476 (2017)

Z. Su, A. Zarassi, B.-M. Nguyen, J. Yoo, S. A. Dayeh, S. M. Frolov
High critical magnetic field superconducting contacts to Ge/Si core/shell nanowires

M. Dabrowski, Y. Dai, M. Hocevar, S.M. Frolov, H. Petek
Nanoscale guiding and shaping of indium droplets
APL 109, 261602 (2016)

A. Manchon, H. C. Koo, J. Nitta, S. M. Frolov and R. A. Duine
New perspectives for Rashba spin–orbit coupling
arXiv:1507.02408  ||  Nat. Mater.14, 871-882 (2015)

S.R. Plissard, I. van Weperen, D. Car, M.A. Verheijen, G.W.G. Immink, J. Kammhuber, L.J. Cornelissen, D.B. Szombati, A. Geresdi, S.M. Frolov, L. P. Kouwenhoven and E.P.A.M. Bakkers
Formation and electronic properties of InSb nanocrosses
Nat. Nanotech. 8, 859 (2013)

S. M. Frolov, S. R. Plissard, S. Nadj-Perge, L. P. Kouwenhoven and E. P. A. M. Bakkers
Quantum Computing based on Semiconductor Nanowires
MRS Bulletin 38, 809 (2013)
a review article in the issue on Materials Issues for Quantum Computation

PhD Theses

Hao Wu, Andreev quantum dot chains in indium antimonide nanowires (2021)

Peng Yu, Low Energy States in Hybrid Superconductor-Semiconductor Nanowire Majorana Devices (2020)

Azarin Zarassi, From Quantum Transport in Semiconducting Nanowires to Hybrid Semiconducting-Superconducting Qubits (2020)

Zhaoen Su, Andreev Bound States in Superconductor-Quantum Dot Chains (2017)