21 results on '"Bommer, Jouri D. S."'
Search Results
2. In-plane selective area InSb-Al nanowire quantum networks
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Veld, Roy L. M. Op het, Xu, Di, Schaller, Vanessa, Verheijen, Marcel A., Peters, Stan M. E., Jung, Jason, Tong, Chuyao, Wang, Qingzhen, de Moor, Michiel W. A., Hesselmann, Bart, Vermeulen, Kiefer, Bommer, Jouri D. S., Lee, Joon Sue, Sarikov, Andrey, Pendharkar, Mihir, Marzegalli, Anna, Koelling, Sebastian, Kouwenhoven, Leo P., Miglio, Leo, Palmstrøm, Chris J., Zhang, Hao, and Bakkers, Erik P. A. M.
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Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
Strong spin-orbit semiconductor nanowires coupled to a superconductor are predicted to host Majorana zero modes. Exchange (braiding) operations of Majorana modes form the logical gates of a topological quantum computer and require a network of nanowires. Here, we develop an in-plane selective-area growth technique for InSb-Al semiconductor-superconductor nanowire networks with excellent quantum transport properties. Defect-free transport channels in InSb nanowire networks are realized on insulating, but heavily mismatched InP substrates by 1) full relaxation of the lattice mismatch at the nanowire/substrate interface on a (111)B substrate orientation, 2) nucleation of a complete network from a single nucleation site, which is accomplished by optimizing the surface diffusion length of the adatoms. Essential quantum transport phenomena for topological quantum computing are demonstrated in these structures including phase-coherent transport up to 10 $\mu$m and a hard superconducting gap accompanied by 2$e$-periodic Coulomb oscillations with an Al-based Cooper pair island integrated in the nanowire network., Comment: Data repository is available at https://doi.org/10.5281/zenodo.4589484 . Author version of the text before peer review, while see DOI for the published version
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- 2021
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3. Large zero-bias peaks in InSb-Al hybrid semiconductor-superconductor nanowire devices
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Zhang, Hao, de Moor, Michiel W. A., Bommer, Jouri D. S., Xu, Di, Wang, Guanzhong, van Loo, Nick, Liu, Chun-Xiao, Gazibegovic, Sasa, Logan, John A., Car, Diana, Veld, Roy L. M. Op het, van Veldhoven, Petrus J., Koelling, Sebastian, Verheijen, Marcel A., Pendharkar, Mihir, Pennachio, Daniel J., Shojaei, Borzoyeh, Lee, Joon Sue, Palmstrøm, Chris J., Bakkers, Erik P. A. M., Sarma, S. Das, and Kouwenhoven, Leo P.
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Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
We report electron transport studies on InSb-Al hybrid semiconductor-superconductor nanowire devices. Tunnelling spectroscopy is used to measure the evolution of subgap states while varying magnetic field and voltages applied to various nearby gates. At magnetic fields between 0.7 and 0.9 T, the differential conductance contains large zero bias peaks (ZBPs) whose height reaches values on the order 2e2/h. We investigate these ZBPs for large ranges of gate voltages in different devices. We discuss possible interpretations in terms of disorder-induced subgap states, Andreev bound states and Majorana zero modes., Comment: This manuscript replaces "Quantized Majorana conductance" Nature 556, 74 (2018). Technical errors in Nature 556, 74 (2018) are corrected and the original claims now have a wider interpretation. A Retraction Note (in preparation) on Nature 556, 74 (2018) will include a detailed description of errors and the corrected data analyses
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- 2021
4. Spin-Orbit Protection of Induced Superconductivity in Majorana Nanowires
- Author
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Bommer, Jouri D. S., Zhang, Hao, Gül, Önder, Nijholt, Bas, Wimmer, Michael, Rybakov, Filipp N., Garaud, Julien, Rodic, Donjan, Babaev, Egor, Troyer, Matthias, Car, Diana, Plissard, Sébastien R., Bakkers, Erik P. A. M., Watanabe, Kenji, Taniguchi, Takashi, and Kouwenhoven, Leo P.
- Subjects
Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
Spin-orbit interaction (SOI) plays a key role in creating Majorana zero modes in semiconductor nanowires proximity coupled to a superconductor. We track the evolution of the induced superconducting gap in InSb nanowires coupled to a NbTiN superconductor in a large range of magnetic field strengths and orientations. Based on realistic simulations of our devices, we reveal SOI with a strength of 0.15-0.35 eV$\require{mediawiki-texvc}\AA$. Our approach identifies the direction of the spin-orbit field, which is strongly affected by the superconductor geometry and electrostatic gates., Comment: 7 pages, 4 figures. Supplemental Material as ancillary file
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- 2018
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5. Electric field tunable superconductor-semiconductor coupling in Majorana nanowires
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de Moor, Michiel W. A., Bommer, Jouri D. S., Xu, Di, Winkler, Georg W., Antipov, Andrey E., Bargerbos, Arno, Wang, Guanzhong, van Loo, Nick, Veld, Roy L. M. Op het, Gazibegovic, Sasa, Car, Diana, Logan, John A., Pendharkar, Mihir, Lee, Joon Sue, Bakkers, Erik P. A. M., Palmstrøm, Chris J., Lutchyn, Roman M., Kouwenhoven, Leo P., and Zhang, Hao
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Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
We study the effect of external electric fields on superconductor-semiconductor coupling by measuring the electron transport in InSb semiconductor nanowires coupled to an epitaxially grown Al superconductor. We find that the gate voltage induced electric fields can greatly modify the coupling strength, which has consequences for the proximity induced superconducting gap, effective g-factor, and spin-orbit coupling, which all play a key role in understanding Majorana physics. We further show that level repulsion due to spin-orbit coupling in a finite size system can lead to seemingly stable zero bias conductance peaks, which mimic the behavior of Majorana zero modes. Our results improve the understanding of realistic Majorana nanowire systems., Comment: 10 pages, 5 figures, supplemental information as ancillary file
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- 2018
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6. Quantized Majorana conductance
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Zhang, Hao, Liu, Chun-Xiao, Gazibegovic, Sasa, Xu, Di, Logan, John A., Wang, Guanzhong, van Loo, Nick, Bommer, Jouri D. S., de Moor, Michiel W. A., Car, Diana, Veld, Roy L. M. Op het, van Veldhoven, Petrus J., Koelling, Sebastian, Verheijen, Marcel A., Pendharkar, Mihir, Pennachio, Daniel J., Shojaei, Borzoyeh, Lee, Joon Sue, Palmstrom, Chris J., Bakkers, Erik P. A. M., Sarma, S. Das, and Kouwenhoven, Leo P.
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Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
Majorana zero-modes hold great promise for topological quantum computing. Tunnelling spectroscopy in electrical transport is the primary tool to identify the presence of Majorana zero-modes, for instance as a zero-bias peak (ZBP) in differential-conductance. The Majorana ZBP-height is predicted to be quantized at the universal conductance value of 2e2/h at zero temperature. Interestingly, this quantization is a direct consequence of the famous Majorana symmetry, 'particle equals antiparticle'. The Majorana symmetry protects the quantization against disorder, interactions, and variations in the tunnel coupling. Previous experiments, however, have shown ZBPs much smaller than 2e2/h, with a recent observation of a peak-height close to 2e2/h. Here, we report a quantized conductance plateau at 2e2/h in the zero-bias conductance measured in InSb semiconductor nanowires covered with an Al superconducting shell. Our ZBP-height remains constant despite changing parameters such as the magnetic field and tunnel coupling, i.e. a quantized conductance plateau. We distinguish this quantized Majorana peak from possible non-Majorana origins, by investigating its robustness on electric and magnetic fields as well as its temperature dependence. The observation of a quantized conductance plateau strongly supports the existence of non-Abelian Majorana zero-modes in the system, consequently paving the way for future braiding experiments., Comment: 5 figures
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- 2017
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7. Ballistic superconductivity in semiconductor nanowires
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Zhang, Hao, Gül, Önder, Conesa-Boj, Sonia, Nowak, Michał P., Wimmer, Michael, Zuo, Kun, Mourik, Vincent, de Vries, Folkert K., van Veen, Jasper, de Moor, Michiel W. A., Bommer, Jouri D. S., van Woerkom, David J., Car, Diana, Plissard, Sébastien R., Bakkers, Erik P. A. M., Quintero-Pérez, Marina, Cassidy, Maja C., Koelling, Sebastian, Goswami, Srijit, Watanabe, Kenji, Taniguchi, Takashi, and Kouwenhoven, Leo P.
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Condensed Matter - Mesoscale and Nanoscale Physics ,Condensed Matter - Materials Science ,Condensed Matter - Superconductivity - Abstract
Semiconductor nanowires have opened new research avenues in quantum transport owing to their confined geometry and electrostatic tunability. They have offered an exceptional testbed for superconductivity, leading to the realization of hybrid systems combining the macroscopic quantum properties of superconductors with the possibility to control charges down to a single electron. These advances brought semiconductor nanowires to the forefront of efforts to realize topological superconductivity and Majorana modes. A prime challenge to benefit from the topological properties of Majoranas is to reduce the disorder in hybrid nanowire devices. Here, we show ballistic superconductivity in InSb semiconductor nanowires. Our structural and chemical analyses demonstrate a high-quality interface between the nanowire and a NbTiN superconductor which enables ballistic transport. This is manifested by a quantized conductance for normal carriers, a strongly enhanced conductance for Andreev-reflecting carriers, and an induced hard gap with a significantly reduced density of states. These results pave the way for disorder-free Majorana devices., Comment: This submission contains the first part of arXiv:1603.04069. The second part of arXiv:1603.04069 is included in a separate paper
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- 2017
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8. Ballistic Majorana nanowire devices
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Gül, Önder, Zhang, Hao, Bommer, Jouri D. S., de Moor, Michiel W. A., Car, Diana, Plissard, Sébastien R., Bakkers, Erik P. A. M., Geresdi, Attila, Watanabe, Kenji, Taniguchi, Takashi, and Kouwenhoven, Leo P.
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Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
Majorana modes are zero-energy excitations of a topological superconductor that exhibit non-Abelian statistics. Following proposals for their detection in a semiconductor nanowire coupled to an s-wave superconductor, several tunneling experiments reported characteristic Majorana signatures. Reducing disorder has been a prime challenge for these experiments because disorder can mimic the zero-energy signatures of Majoranas, and renders the topological properties inaccessible. Here, we show characteristic Majorana signatures in InSb nanowire devices exhibiting clear ballistic transport properties. Application of a magnetic field and spatial control of carrier density using local gates generates a zero bias peak that is rigid over a large region in the parameter space of chemical potential, Zeeman energy, and tunnel barrier potential. The reduction of disorder allows us to resolve separate regions in the parameter space with and without a zero bias peak, indicating topologically distinct phases. These observations are consistent with the Majorana theory in a ballistic system, and exclude for the first time the known alternative explanations that invoke disorder or a nonuniform chemical potential., Comment: See https://doi.org/10.5281/zenodo.4721357 for source data. No changes in this version (v3) compared to the previous version (v2)
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- 2016
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9. Author Correction: In-plane selective area InSb–Al nanowire quantum networks
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Op het Veld, Roy L. M., Xu, Di, Schaller, Vanessa, Verheijen, Marcel A., Peters, Stan M. E., Jung, Jason, Tong, Chuyao, Wang, Qingzhen, de Moor, Michiel W. A., Hesselmann, Bart, Vermeulen, Kiefer, Bommer, Jouri D. S., Lee, Joon Sue, Sarikov, Andrey, Pendharkar, Mihir, Marzegalli, Anna, Koelling, Sebastian, Kouwenhoven, Leo P., Miglio, Leo, Palmstrøm, Chris J., Zhang, Hao, and Bakkers, Erik P. A. M.
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- 2021
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10. In-plane selective area InSb–Al nanowire quantum networks
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Op het Veld, Roy L. M., Xu, Di, Schaller, Vanessa, Verheijen, Marcel A., Peters, Stan M. E., Jung, Jason, Tong, Chuyao, Wang, Qingzhen, de Moor, Michiel W. A., Hesselmann, Bart, Vermeulen, Kiefer, Bommer, Jouri D. S., Sue Lee, Joon, Sarikov, Andrey, Pendharkar, Mihir, Marzegalli, Anna, Koelling, Sebastian, Kouwenhoven, Leo P., Miglio, Leo, Palmstrøm, Chris J., Zhang, Hao, and Bakkers, Erik P. A. M.
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- 2020
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11. RETRACTED ARTICLE: Quantized Majorana conductance
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Zhang, Hao, Liu, Chun-Xiao, Gazibegovic, Sasa, Xu, Di, Logan, John A., Wang, Guanzhong, van Loo, Nick, Bommer, Jouri D. S., de Moor, Michiel W. A., Car, Diana, Op het Veld, Roy L. M., van Veldhoven, Petrus J., Koelling, Sebastian, Verheijen, Marcel A., Pendharkar, Mihir, Pennachio, Daniel J., Shojaei, Borzoyeh, Lee, Joon Sue, Palmstrøm, Chris J., Bakkers, Erik P. A. M., Sarma, S. Das, and Kouwenhoven, Leo P.
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- 2018
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12. Ballistic Majorana nanowire devices
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Gül, Önder, Zhang, Hao, Bommer, Jouri D. S., de Moor, Michiel W. A., Car, Diana, Plissard, Sébastien R., Bakkers, Erik P. A. M., Geresdi, Attila, Watanabe, Kenji, Taniguchi, Takashi, and Kouwenhoven, Leo P.
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- 2018
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13. Retraction Note: Quantized Majorana conductance
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Zhang, Hao, Liu, Chun-Xiao, Gazibegovic, Sasa, Xu, Di, Logan, John A., Wang, Guanzhong, van Loo, Nick, Bommer, Jouri D. S., de Moor, Michiel W. A., Car, Diana, Op het Veld, Roy L. M., van Veldhoven, Petrus J., Koelling, Sebastian, Verheijen, Marcel A., Pendharkar, Mihir, Pennachio, Daniel J., Shojaei, Borzoyeh, Lee, Joon Sue, Palmstrøm, Chris J., Bakkers, Erik P. A. M., Das Sarma, S., and Kouwenhoven, Leo P.
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- 2021
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14. Editorial Expression of Concern: Quantized Majorana conductance
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Zhang, Hao, Liu, Chun-Xiao, Gazibegovic, Sasa, Xu, Di, Logan, John A., Wang, Guanzhong, van Loo, Nick, Bommer, Jouri D. S., de Moor, Michiel W. A., Car, Diana, Op het Veld, Roy L. M., van Veldhoven, Petrus J., Koelling, Sebastian, Verheijen, Marcel A., Pendharkar, Mihir, Pennachio, Daniel J., Shojaei, Borzoyeh, Lee, Joon Sue, Palmstrøm, Chris J., Bakkers, Erik P. A. M., Sarma, S. Das, and Kouwenhoven, Leo P.
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- 2020
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15. Quantized Majorana conductance
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Zhang, Hao, Liu, Chun-Xiao, Gazibegovic, Sasa, Xu, Di, Logan, John A., Wang, Guanzhong, van Loo, Nick, Bommer, Jouri D. S., de Moor, Michiel W. A., Car, Diana, Op het Veld, Roy L. M., van Veldhoven, Petrus J., Koelling, Sebastian, Verheijen, Marcel A., Pendharkar, Mihir, Pennachio, Daniel J., Shojaei, Borzoyeh, Lee, Joon Sue, Palmstrm, Chris J., Bakkers, Erik P. A. M., Sarma, S. Das, and Kouwenhoven, Leo P.
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Fermions -- Electric properties ,Quantum computing -- Research ,Physics research ,Electrical conductance -- Research ,Environmental issues ,Science and technology ,Zoology and wildlife conservation - Abstract
Author(s): Hao Zhang (corresponding author) [1]; Chun-Xiao Liu [2]; Sasa Gazibegovic [3]; Di Xu [1]; John A. Logan [4]; Guanzhong Wang [1]; Nick van Loo [1]; Jouri D. S. Bommer [...]
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- 2018
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16. In-plane selective area InSb–Al nanowire quantum networks
- Author
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Op het Veld, R, Xu, D, Schaller, V, Verheijen, M, Peters, S, Jung, J, Tong, C, Wang, Q, de Moor, M, Hesselmann, B, Vermeulen, K, Bommer, J, Sue Lee, J, Sarikov, A, Pendharkar, M, Marzegalli, A, Koelling, S, Kouwenhoven, L, Miglio, L, Palmstrøm, C, Zhang, H, Bakkers, E, Op het Veld, Roy L. M., Xu, Di, Schaller, Vanessa, Verheijen, Marcel A., Peters, Stan M. E., Jung, Jason, Tong, Chuyao, Wang, Qingzhen, de Moor, Michiel W. A., Hesselmann, Bart, Vermeulen, Kiefer, Bommer, Jouri D. S., Sue Lee, Joon, Sarikov, Andrey, Pendharkar, Mihir, Marzegalli, Anna, Koelling, Sebastian, Kouwenhoven, Leo P., Miglio, Leo, Palmstrøm, Chris J., Zhang, Hao, Bakkers, Erik P. A. M., Op het Veld, R, Xu, D, Schaller, V, Verheijen, M, Peters, S, Jung, J, Tong, C, Wang, Q, de Moor, M, Hesselmann, B, Vermeulen, K, Bommer, J, Sue Lee, J, Sarikov, A, Pendharkar, M, Marzegalli, A, Koelling, S, Kouwenhoven, L, Miglio, L, Palmstrøm, C, Zhang, H, Bakkers, E, Op het Veld, Roy L. M., Xu, Di, Schaller, Vanessa, Verheijen, Marcel A., Peters, Stan M. E., Jung, Jason, Tong, Chuyao, Wang, Qingzhen, de Moor, Michiel W. A., Hesselmann, Bart, Vermeulen, Kiefer, Bommer, Jouri D. S., Sue Lee, Joon, Sarikov, Andrey, Pendharkar, Mihir, Marzegalli, Anna, Koelling, Sebastian, Kouwenhoven, Leo P., Miglio, Leo, Palmstrøm, Chris J., Zhang, Hao, and Bakkers, Erik P. A. M.
- Abstract
Strong spin–orbit semiconductor nanowires coupled to a superconductor are predicted to host Majorana zero modes. Exchange (braiding) operations of Majorana modes form the logical gates of a topological quantum computer and require a network of nanowires. Here, we utilize an in-plane selective area growth technique for InSb–Al semiconductor–superconductor nanowire networks. Transport channels, free from extended defects, in InSb nanowire networks are realized on insulating, but heavily mismatched InP (111)B substrates by full relaxation of the lattice mismatch at the nanowire/substrate interface and nucleation of a complete network from a single nucleation site by optimizing the surface diffusion length of the adatoms. Essential quantum transport phenomena for topological quantum computing are demonstrated in these structures including phase-coherence lengths exceeding several micrometers with Aharonov–Bohm oscillations up to five harmonics and a hard superconducting gap accompanied by 2e-periodic Coulomb oscillations with an Al-based Cooper pair island integrated in the nanowire network.
- Published
- 2020
17. Spin-Orbit Protection of Induced Superconductivity in Majorana Nanowires
- Author
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Bommer, Jouri D. S., Zhang, Hao, Gul, Onder, Nijholt, Bas, Wimmer, Michael, Rybakov, Filipp N., Garaud, Julien, Rodic, Donjan, Babaev, Egor, Troyer, Matthias, Car, Diana, Plissard, Sebastien R., Bakkers, Erik P. A. M., Watanabe, Kenji, Taniguchi, Takashi, Kouwenhoven, Leo P., Bommer, Jouri D. S., Zhang, Hao, Gul, Onder, Nijholt, Bas, Wimmer, Michael, Rybakov, Filipp N., Garaud, Julien, Rodic, Donjan, Babaev, Egor, Troyer, Matthias, Car, Diana, Plissard, Sebastien R., Bakkers, Erik P. A. M., Watanabe, Kenji, Taniguchi, Takashi, and Kouwenhoven, Leo P.
- Abstract
Spin-orbit interaction (SOI) plays a key role in creating Majorana zero modes in semiconductor nanowires proximity coupled to a superconductor. We track the evolution of the induced superconducting gap in InSb nanowires coupled to a NbTiN superconductor in a large range of magnetic field strengths and orientations. Based on realistic simulations of our devices, we reveal SOI with a strength of 0.15-0.35 eV angstrom. Our approach identifies the direction of the spin-orbit field, which is strongly affected by the superconductor geometry and electrostatic gates., QC 20190718
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- 2019
- Full Text
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18. Spin-Orbit Protection of Induced Superconductivity in Majorana Nanowires
- Author
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Bommer, Jouri D. S., primary, Zhang, Hao, additional, Gül, Önder, additional, Nijholt, Bas, additional, Wimmer, Michael, additional, Rybakov, Filipp N., additional, Garaud, Julien, additional, Rodic, Donjan, additional, Babaev, Egor, additional, Troyer, Matthias, additional, Car, Diana, additional, Plissard, Sébastien R., additional, Bakkers, Erik P. A. M., additional, Watanabe, Kenji, additional, Taniguchi, Takashi, additional, and Kouwenhoven, Leo P., additional
- Published
- 2019
- Full Text
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19. Electric field tunable superconductor-semiconductor coupling in Majorana nanowires
- Author
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de Moor, Michiel W A, primary, Bommer, Jouri D S, additional, Xu, Di, additional, Winkler, Georg W, additional, Antipov, Andrey E, additional, Bargerbos, Arno, additional, Wang, Guanzhong, additional, Loo, Nick van, additional, Op het Veld, Roy L M, additional, Gazibegovic, Sasa, additional, Car, Diana, additional, Logan, John A, additional, Pendharkar, Mihir, additional, Lee, Joon Sue, additional, M Bakkers, Erik P A, additional, Palmstrøm, Chris J, additional, Lutchyn, Roman M, additional, Kouwenhoven, Leo P, additional, and Zhang, Hao, additional
- Published
- 2018
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20. Ballistic superconductivity in semiconductor nanowires
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Zhang, Hao, primary, Gül, Önder, additional, Conesa-Boj, Sonia, additional, Nowak, Michał P., additional, Wimmer, Michael, additional, Zuo, Kun, additional, Mourik, Vincent, additional, de Vries, Folkert K., additional, van Veen, Jasper, additional, de Moor, Michiel W. A., additional, Bommer, Jouri D. S., additional, van Woerkom, David J., additional, Car, Diana, additional, Plissard, Sébastien R, additional, Bakkers, Erik P.A.M., additional, Quintero-Pérez, Marina, additional, Cassidy, Maja C., additional, Koelling, Sebastian, additional, Goswami, Srijit, additional, Watanabe, Kenji, additional, Taniguchi, Takashi, additional, and Kouwenhoven, Leo P., additional
- Published
- 2017
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21. Electron waiting times in hybrid junctions with topological superconductors.
- Author
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Mi, Shuo, Burset, Pablo, and Flindt, Christian
- Abstract
We investigate the waiting time distributions (WTDs) of superconducting hybrid junctions, considering both conventional and topologically nontrivial superconductors hosting Majorana bound states at their edges. To this end, we employ a scattering matrix formalism that allows us to evaluate the waiting times between the transmissions and reflections of electrons or holes. Specifically, we analyze normal-metal-superconductor (NIS) junctions and NISIN junctions, where Cooper pairs are spatially split into different leads. The distribution of waiting times is sensitive to the simultaneous reflection of electrons and holes, which is enhanced by the zero-energy state in topological superconductors. For the NISIN junctions, the WTDs of trivial superconductors feature a sharp dependence on the applied voltage, while for topological ones they are mostly independent of it. This particular voltage dependence is again connected to the presence of topological edge states, showing that WTDs are a promising tool for identifying topological superconductivity. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
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