Maja C. Cassidy, Ph.D.
Affiliations: | Engineering and Applied Sciences | Harvard University, Cambridge, MA, United States |
Area:
mesoscopic physicsGoogle:
"Maja Cassidy"Mean distance: 17.67 (cluster 17)
Parents
Sign in to add mentor| Charles Masamed Marcus | grad student | 2012 | Harvard | |
| (Hyperpolarized Silicon Particles as In-vivo Imaging Agents.) | ||||
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Publications
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| Khan SA, Lampadaris C, Cui A, et al. (2020) Highly Transparent Gatable Superconducting Shadow Junctions. Acs Nano |
| Pauka S, Das K, Hornibrook J, et al. (2020) Characterizing Quantum Devices at Scale with Custom Cryo-CMOS Physical Review Applied. 13 |
| Darulová J, Pauka S, Wiebe N, et al. (2020) Autonomous Tuning and Charge-State Detection of Gate-Defined Quantum Dots Physical Review Applied. 13 |
| Pauka SJ, Witt JDS, Allen CN, et al. (2020) Repairing the surface of InAs-based topological heterostructures Journal of Applied Physics. 128: 114301 |
| Kroll J, Borsoi F, van der Enden K, et al. (2019) Magnetic-Field-Resilient Superconducting Coplanar-Waveguide Resonators for Hybrid Circuit Quantum Electrodynamics Experiments Physical Review Applied. 11 |
| Kroll JG, Uilhoorn W, van der Enden KL, et al. (2018) Magnetic field compatible circuit quantum electrodynamics with graphene Josephson junctions. Nature Communications. 9: 4615 |
| Kammhuber J, Cassidy MC, Pei F, et al. (2017) Conductance through a helical state in an Indium antimonide nanowire. Nature Communications. 8: 478 |
| Gazibegovic S, Car D, Zhang H, et al. (2017) Epitaxy of advanced nanowire quantum devices. Nature. 548: 434-438 |
| Zhang H, Gül Ö, Conesa-Boj S, et al. (2017) Ballistic superconductivity in semiconductor nanowires. Nature Communications. 8: 16025 |
| Gül Ö, Zhang H, de Vries FK, et al. (2017) Hard superconducting gap in InSb nanowires. Nano Letters |