no code implementations • 5 Feb 2021 • Galan Moody, Volker J. Sorger, Paul W. Juodawlkis, William Loh, Cheryl Sorace-Agaskar, Marcelo Davanco, Lin Chang, John E. Bowers, Niels Quack, Christophe Galland, Igor Aharonovich, M. A. Wolff, C. Schuck, Neil Sinclair, Marko Lončar, Tin Komljenovic, David Weld, Shayan Mookherjea, Sonia Buckley, Marina Radulaski, Stephan Reitzenstein, Benjamin Pingault, Bartholomeus Machielse, Debsuvra Mukhopadhyay, Alexey Akimov, Aleksei Zheltikov, Girish S. Agarwal, Kartik Srinivasan, Juanjuan Lu, Hong X. Tang, Wentao Jiang, Timothy P. McKenna, Amir H. Safavi-Naeini, Stephan Steinhauer, Ali W. Elshaari, Val Zwiller, Paul S. Davids, Nicholas Martinez, Michael Gehl, John Chiaverini, Karan K. Mehta, Jacquiline Romero, Navin B. Lingaraju, Andrew M. Weiner, Daniel Peace, Robert Cernansky, Mirko Lobino, Eleni Diamanti, Luis Trigo Vidarte, Ryan M. Camacho
The reduction in size, weight, power, and improvement in stability that will be enabled by QPICs will play a key role in increasing the degree of complexity and scale in quantum demonstrations.
Quantum Physics
no code implementations • 24 Dec 2020 • Stefan Krastanov, Hamza Raniwala, Jeffrey Holzgrafe, Kurt Jacobs, Marko Lončar, Matthew J. Reagor, Dirk R. Englund
Networking superconducting quantum computers is a longstanding challenge in quantum science.
Quantum Physics
no code implementations • 3 Sep 2019 • Mihir K. Bhaskar, Ralf Riedinger, Bartholomeus Machielse, David S. Levonian, Christian T. Nguyen, Erik N. Knall, Hongkun Park, Dirk Englund, Marko Lončar, Denis D. Sukachev, Mikhail D. Lukin
The ability to communicate quantum information over long distances is of central importance in quantum science and engineering.
Quantum Physics