Gated semiconductor quantum dots are among perspective qubit implementations in solid-state. The online meeting will reflect the current surge of research activity in this field. We focus on recent advances in qubit performance, as well as novel approaches, platforms, and materials.

Tuesday, March 9, 2021

13:00 - 13:10	Opening
13:10 - 13:40	Kenta Takeda (RIKEN CEMS) Manipulation of three-spin states in a silicon triple quantum dot
13:40 - 14:10	William Coish (McGill University, Canada) First-principles hyperfine and spin-electric coupling for electron-spin and hole-spin qubits
14:10 - 14:40	Stefano Chesi (CSRC Beijing, China) Superradiant-like dynamics of nuclear spins by non-adiabatic electron shuttling
14:40 - 15:10	Takafumi Fujita (Osaka University) Accelerated electric-dipole spin resonance in a quantum dot array
15:10 - 15:30	Break
15:30 - 16:00	Peter Stano (RIKEN CEMS) Optimal frequency estimation and its application to quantum dots
16:00 - 16:30	Jun Yoneda (Tokyo Institute of Technology) Single electron spin tunneling in silicon quantum dots
16:30 - 17:00	Pasquale Scarlino (EPFL Lausanne, Switzerland) Hybrid Circuit Quantum Electrodynamics with Semiconductor QDs and High Impedance Superconducting Resonators
17:00 - 17:30	Matthieu Delbecq (Sorbonne Université - LPENS, France) Hyperfine coupling of ultra-clean carbon nanotube spin qubits in cQED architecture
17:30 - 18:00	Ferdinand Kuemmeth (NBI Kopenhagen, Denmark) Navigating high-dimensional gate-voltage spaces of multi-dot spin qubits
18:00 -	Closing

* Japan Standard Time (JST / UTC+0900)

 Abstract.pdf (4MB)

For help and further information, please contact:

Secretariat of CEMS Topical Meeting Online
Quantum System Theory Research Team and Quantum Functional System Research Group, RIKEN CEMS

Address: 2-1 Hirosawa, Wako, Saitama 351-0198, JAPAN
Phone: +81-48-467-9470

Email: peter.stano@riken.jp, nakajima.physics@icloud.com

Organizer

• Peter Stano (RIKEN CEMS)
• Takashi Nakajima (RIKEN CEMS)