Filip Křížek
Filip Křížek
Postdoctoral Researcher ETH Zurich
Verified email at fzu.cz - Homepage
Title
Cited by
Cited by
Year
Selective-area-grown semiconductor-superconductor hybrids: A basis for topological networks
S Vaitiekėnas, AM Whiticar, MT Deng, F Krizek, JE Sestoft, CJ Palmstrřm, ...
Physical review letters 121 (14), 147701, 2018
762018
Field effect enhancement in buffered quantum nanowire networks
F Krizek, JE Sestoft, P Aseev, S Marti-Sanchez, S Vaitiekėnas, L Casparis, ...
Physical review materials 2 (9), 093401, 2018
692018
Selectivity map for molecular beam epitaxy of advanced III–V quantum nanowire networks
P Aseev, A Fursina, F Boekhout, F Krizek, JE Sestoft, F Borsoi, S Heedt, ...
Nano letters 19 (1), 218-227, 2018
622018
Shadow epitaxy for in situ growth of generic semiconductor/superconductor hybrids
DJ Carrad, M Bjergfelt, T Kanne, M Aagesen, F Krizek, EM Fiordaliso, ...
Advanced Materials 32 (23), 1908411, 2020
332020
Growth of InAs wurtzite nanocrosses from hexagonal and cubic basis
F Krizek, T Kanne, D Razmadze, E Johnson, J Nygård, CM Marcus, ...
Nano letters 17 (10), 6090-6096, 2017
292017
Highly transparent gatable superconducting shadow junctions
SA Khan, C Lampadaris, A Cui, L Stampfer, Y Liu, SJ Pauka, ME Cachaza, ...
ACS nano 14 (11), 14605-14615, 2020
20*2020
Quenching of an antiferromagnet into high resistivity states using electrical or ultrashort optical pulses
Z Kašpar, M Surýnek, J Zubáč, F Krizek, V Novák, RP Campion, ...
Nature Electronics 4 (1), 30-37, 2021
16*2021
Molecular beam epitaxy of CuMnAs
F Krizek, Z Kašpar, A Vetushka, D Kriegner, EM Fiordaliso, J Michalicka, ...
Physical Review Materials 4 (1), 014409, 2020
112020
Atomically sharp domain walls in an antiferromagnet
F Krizek, S Reimers, Z Kašpar, A Marmodoro, J Michalička, O Man, ...
arXiv preprint arXiv:2012.00894, 2020
32020
Au-assisted substrate-faceting for inclined nanowire growth
JH Kang, F Krizek, M Zaluska-Kotur, P Krogstrup, P Kacman, ...
Nano letters 18 (7), 4115-4122, 2018
32018
Semiconductor Nanowire Networks Grown By Molecular Beam Epitaxy: Vapor-Liquid-Solid and Selective Area Growth
F Krizek
Center for Quantum Devices, Niels Bohr Institute, University of Copenhagen, 2018
12018
Hysteretic effects and magnetotransport of electrically switched CuMnAs
J Zubáč, Z Kašpar, F Krizek, T Förster, RP Campion, V Novák, T Jungwirth, ...
Physical Review B 104 (18), 184424, 2021
2021
Growth of CuMnAs by molecular beam epitaxy: Control over structure and properties
F Krizek, Z Kaspar, M Brajer, J Zubáč, A Vetushka, J Godinho, D Kriegner, ...
APS March Meeting Abstracts 2019, B45. 009, 2019
2019
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