Mission:
We are a creative team of physicists and engineers working together to understand, design, manufacture, and control coherent quantum systems comprising superconducting artificial atoms (qubits) for quantum information science and technology applications. Our efforts span fundamental research to applied physics and systems engineering.
Recent Publications:
Flat-band (de)localization Emulated with a Superconducting Qubit Array
I. T. Rosen, S. E. Muschinske, C. N. Barrett, D. A. Rower, R. Das, D. K. Kim, B. M. Niedzielski, M. Schuldt, K. Serniak, M. E. Schwartz, J. L. Yoder, J. A. Grover, W. D. Oliver
Physical Review X 15, 021091 (2025) | arXiv:2410.07878 (2024)
Pulse Design of Baseband Flux Control for Adiabatic Controlled-Phase Gates in Superconducting Circuits
Q. Ding, A. V. Oppenheim, P. T. Boufounos, S. Gustavsson, J. A. Grover, T. A. Baran, W. D. Oliver
Physical Review Applied 23, 064013 (2025) | arXiv:2407.02722 (2024)
Theory of quasiparticle generation by microwave drives in superconducting qubits
S. Chowdhury, M. Hays, S. R. Jha, K. Serniak, T. P. Orlando, J. A. Grover, W. D. Oliver
arXiv:2505.00773 (2025)
Remote entangling gates for spin qubits in quantum dots using an offset-charge-sensitive transmon coupler
H. H. Kang, I. T. Rosen, M. Hays, J. A. Grover, W. D. Oliver
Physical Review Applied 23, 044055 (2025) | arXiv:2408.05164 (2024)
Deterministic remote entanglement using a chiral quantum interconnect
A. Almanakly, B. Yankelevich, M. Hays, B. Kannan, R. Assouly, A. Green, M. Gingras, B. M. Niedzielski, H. Stickler, M. E. Schwartz, K. Serniak, J. I-j. Wang, T. P. Orlando, S. Gustavsson, J. A. Grover, W. D. Oliver
Nature Physics 21, 825 (2025) | arXiv:2408.05164 (2024)
See also: Press Release from MIT News Office