Önder Gül
Önder Gül
Department of Physics, Harvard University
Email verificata su g.harvard.edu
Titolo
Citata da
Citata da
Anno
Ballistic Majorana nanowire devices
Ö Gül*, H Zhang*, JDS Bommer*, MWA de Moor, D Car, SR Plissard, ...
Nature Nanotechnology 13 (3), 192–197, 2018
254*2018
Ballistic Majorana nanowire devices
Ö Gül
PhD Thesis, Delft University of Technology. doi.org/10.4233/uuid:5f84f8a9 …, 2017
2172017
Ballistic superconductivity in semiconductor nanowires
H Zhang*, Ö Gül*, S Conesa-Boj, MP Nowak, M Wimmer, K Zuo, V Mourik, ...
Nature Communications 8, 16025, 2017
1622017
Hard superconducting gap in InSb nanowires
Ö Gül, H Zhang, FK de Vries, J van Veen, K Zuo, V Mourik, S Conesa-Boj, ...
Nano Letters 17 (4), 2690-2696, 2017
982017
Conductance quantization at zero magnetic field in InSb nanowires
J Kammhuber, MC Cassidy, H Zhang, Ö Gül, F Pei, MWA de Moor, ...
Nano Letters 16 (6), 3482-3486, 2016
892016
Towards high mobility InSb nanowire devices
Ö Gül*, DJ Van Woerkom*, I van Weperen*, D Car, SR Plissard, ...
Nanotechnology 26 (21), 215202, 2015
872015
Conductance through a helical state in an indium antimonide nanowire
J Kammhuber, MC Cassidy, F Pei, MP Nowak, A Vuik, Ö Gül, D Car, ...
Nature Communications 8, 478, 2017
662017
Flux periodic magnetoconductance oscillations in GaAs/InAs core/shell nanowires
Ö Gül, N Demarina, C Blömers, T Rieger, H Lüth, MI Lepsa, ...
Physical Review B 89 (4), 045417, 2014
572014
Realization of nanoscaled tubular conductors by means of GaAs/InAs core/shell nanowires
C Blömers, T Rieger, P Zellekens, F Haas, MI Lepsa, H Hardtdegen, ...
Nanotechnology 24 (3), 035203, 2013
532013
Spin-orbit protection of induced superconductivity in Majorana nanowires
JDS Bommer*, H Zhang*, Ö Gül*, B Nijholt, M Wimmer, FN Rybakov, ...
Physical Review Letters 122 (18), 187702, 2019
402019
Observation of conductance quantization in InSb nanowire networks
EMT Fadaly, H Zhang, S Conesa-Boj, D Car, Ö Gül, SR Plissard, ...
Nano Letters 17 (11), 6511-6515, 2017
302017
Giant magnetoconductance oscillations in hybrid superconductor−semiconductor core/shell nanowire devices
Ö Gül*, HY Günel*, H Lüth, T Rieger, T Wenz, F Haas, M Lepsa, ...
Nano Letters 14 (11), 6269-6274, 2014
182014
Comparison of InAs nanowire conductivity: influence of growth method and structure
K Sladek, A Winden, S Wirths, K Weis, C Blömers, Ö Gül, T Grap, S Lenk, ...
Physica Status Solidi (c) 9 (2), 230-234, 2012
132012
InSb nanowires with built-in Ga x In 1–x Sb tunnel barriers for Majorana devices
D Car, S Conesa-Boj, H Zhang, RLM Veld, MWA de Moor, EMT Fadaly, ...
Nano Letters 17 (2), 721-727, 2016
72016
Revealing the band structure of InSb nanowires by high-field magnetotransport in the quasiballistic regime
F Vigneau, Ö Gül, YM Niquet, D Car, SR Plissard, W Escoffier, ...
Physical Review B 94 (23), 235303, 2016
42016
Induced superconductivity in the fractional quantum Hall edge
Ö Gül*, Y Ronen*, SY Lee*, H Shapourian, J Zauberman, YH Lee, ...
arXiv preprint arXiv:2009.07836, 2020
22020
Van der Waals Heterostructure Magnetic Josephson Junction
H Idzuchi, F Pientka, KF Huang, K Harada, Ö Gül, YJ Shin, LT Nguyen, ...
arXiv preprint arXiv:2012.14969, 2020
2020
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
Articoli 1–17