SAMOP 2023 –
wissenschaftliches Programm
QI 28: Spin Qubits
Donnerstag, 9. März 2023, 11:00–13:00, F428
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11:00 |
QI 28.1 |
Hauptvortrag:
Conveyor-mode single-electron shuttling in Si/SiGe for a scalable quantum computing architecture — •Inga Seidler, Tom Struck, Ran Xue, Stefan Trellenkamp, Hendrik Bluhm, and Lars R. Schreiber
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11:30 |
QI 28.2 |
Driven non-local gates in double quantum dot spin qubits — •Stephen McMillan and Guido Burkard
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11:45 |
QI 28.3 |
Cavity QED with hybrid quantum-dot donor systems — •Jonas Mielke, Jason R. Petta, and Guido Burkard
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12:00 |
QI 28.4 |
Perspectives for a solid-state-based quantum register based on NV centers aligned along linear crystal defects in diamond — •Reyhaneh Ghassemizadeh, Wolfgang Körner, Daniel F. Urban, and Christian Elsässer
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12:15 |
QI 28.5 |
Controlling nuclear spin qubits in silicon carbide — •Pierre Kuna, Erik Hesselmeier, Di Liu, Vadim Vorobyov, Florian Kaiser, and Jörg Wrachtrup
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12:30 |
QI 28.6 |
Control and coherence of tin-vacancy qubits in diamonds — •C. Waas, H. Beukers, M. Pasini, N. Codreanu, J. Brevoord, L. De Santis, Z. Ademi, S. Niese, F. Gu, V. Dobrovitski, J. Borregaard, and R. Hanson
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12:45 |
QI 28.7 |
Manipulating electron spin entanglement with a scanning tunnelling microscope — •Carsten Henkel and Baruch Horovitz
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