Zobrazeno 1 - 8
of 8
pro vyhledávání: '"Jayss Marshall"'
Autor:
Mustafa Bal, Akshay A. Murthy, Shaojiang Zhu, Francesco Crisa, Xinyuan You, Ziwen Huang, Tanay Roy, Jaeyel Lee, David van Zanten, Roman Pilipenko, Ivan Nekrashevich, Andrei Lunin, Daniel Bafia, Yulia Krasnikova, Cameron J. Kopas, Ella O. Lachman, Duncan Miller, Josh Y. Mutus, Matthew J. Reagor, Hilal Cansizoglu, Jayss Marshall, David P. Pappas, Kim Vu, Kameshwar Yadavalli, Jin-Su Oh, Lin Zhou, Matthew J. Kramer, Florent Lecocq, Dominic P. Goronzy, Carlos G. Torres-Castanedo, P. Graham Pritchard, Vinayak P. Dravid, James M. Rondinelli, Michael J. Bedzyk, Mark C. Hersam, John Zasadzinski, Jens Koch, James A. Sauls, Alexander Romanenko, Anna Grassellino
Publikováno v:
npj Quantum Information, Vol 10, Iss 1, Pp 1-8 (2024)
Abstract We present a transmon qubit fabrication technique that yields systematic improvements in T 1 relaxation times. We encapsulate the surface of niobium and prevent the formation of its lossy surface oxide. By maintaining the same superconductin
Externí odkaz:
https://doaj.org/article/e2667e9866cd4486bc13a96591904d6d
Autor:
Jin-Su Oh, Xiaotian Fang, Tae-Hoon Kim, Matt Lynn, Matt Kramer, Mehdi Zarea, James A. Sauls, Alexander Romanenko, Sam Posen, Anna Grassellino, Cameron J. Kopas, Mark Field, Jayss Marshall, Hilal Cansizoglu, Kameshwar Yadavalli, Joshua Y. Mutus, Matthew Reagor, Lin Zhou
Publikováno v:
Applied Surface Science. 627:157297
Autor:
Lin Zhou, Jin-Su Oh, Xiaotian Fang, Tae-Hoon Kim, Matt Kramer, A Romanenko, S Posen, A Grassellino, Cameron J Kopas, Mark Field, Jayss Marshall, Joshua Y Mutus, Hilal Cansizoglu, Matthew Reagor
Publikováno v:
Microscopy and Microanalysis. 28:1716-1717
Autor:
Makariy A. Tanatar, Daniele Torsello, Kamal R. Joshi, Sunil Ghimire, Cameron J. Kopas, Jayss Marshall, Josh Y. Mutus, Gianluca Ghigo, Mehdi Zarea, James A. Sauls, Ruslan Prozorov
Niobium is one of the most studied superconductors, both theoretically and experimentally. It is tremendously important for applications, and it has the highest superconducting transition temperature, $T_{c}=9.33$ K, of all pure metals. In addition t
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::e382b9cab41a89018a5962051d73c632
https://hdl.handle.net/11583/2973861
https://hdl.handle.net/11583/2973861
Autor:
Jin-Su Oh, Xiaotian Fang, Tae-Hoon Kim, Matt Lynn, Matt Kramer, Mehdi Zarea, James Sauls, Alex Romanenko, Sam Posen, Anna Grassellino, Cameron J. Kopas, Mark Field, Jayss Marshall, Hilal Cansizoglu, Joshua Y. Mutus, Matthew Reagor, Lin Zhou
Publikováno v:
SSRN Electronic Journal.
Autor:
Kevin M. Ryan, Carlos G. Torres-Castanedo, Dominic P. Goronzy, David A. Garcia Wetten, Mark Field, Cameron J. Kopas, Jayss Marshall, Matthew J. Reagor, Michael J. Bedzyk, Mark C. Hersam, Venkat Chandrasekhar
Publikováno v:
Applied Physics Letters. 121:202601
Continued advances in superconducting qubit performance require more detailed understandings of the many sources of decoherence. Within these devices, two-level systems arise due to defects, interfaces, and grain boundaries and are thought to be a ma
Autor:
A. Hudson, Colm A. Ryan, Nagesh Vodrahalli, Roland Smith, Eyob A. Sete, Michael J. Rust, M. P. da Silva, Nicolas Didier, Osborn Christopher Butler, T. Manning, T. El Bouayadi, Rodney Sinclair, Ting-Wai To, Damon Russell, J. Cordova, M. Pelstring, Genya Crossman, R. Maydra, Russ Renzas, Yuvraj Mohan, Riccardo Manenti, Vijay Rawat, R. Chilcott, Diego Scarabelli, Shane Caldwell, Jean-Philip Paquette, A. Bestwick, Anthony Polloreno, Alexander Papageorge, E. Acala, William J. Zeng, Michael Curtis, K. Kuang, Matthew Reagor, Guenevere E. D. K. Prawiroatmodjo, Nicholas C. Rubin, Tyler Whyland, Benjamin Bloom, Chad Rigetti, Maxwell Block, Michael Scheer, Catvu Bui, Saniya Deshpande, William A. O'Brien, Joel Angeles, Mark Suska, Lauren Capelluto, M. Lenihan, A. Bradley, Nasser Alidoust, Mehrnoosh Vahidpour, Peter J. Karalekas, D. Girshovich, Alexa Staley, Michael Selvanayagam, Johannes Otterbach, A. Marchenkov, Dane Christoffer Thompson, Sabrina Hong, Kamal Yadav, Jayss Marshall, Nikolas Tezak
We describe and implement a family of entangling gates activated by radio-frequency flux modulation applied to a tunable transmon that is statically coupled to a neighboring transmon. The effect of this modulation is the resonant exchange of photons
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::e32f323f8a14e0d8526ce01195e14a00
Autor:
Roland Smith, Colm A. Ryan, Diego Scarabelli, Tyler Whyland, T. El Bouayadi, Eyob A. Sete, Vijay Rawat, Rodney Sinclair, T. Manning, A. Bradley, Michael J. Rust, A. Hudson, Michael Scheer, Shane Caldwell, Peter J. Karalekas, D. Girshovich, Maxwell Block, Michael Selvanayagam, Sabrina Hong, Kamal Yadav, Nicolas Didier, Anthony Polloreno, A. Bestwick, K. Kuang, E. Acala, Damon Russell, Jean-Philip Paquette, Osborn Christopher Butler, Ting-Wai To, Genya Crossman, Mehrnoosh Vahidpour, Nicholas C. Rubin, Chad Rigetti, J. Cordova, Benjamin Bloom, Saniya Deshpande, Michael Curtis, Nagesh Vodrahalli, Johannes Otterbach, Matthew Reagor, Jayss Marshall, William A. O'Brien, Nikolas Tezak, M. P. da Silva, William J. Zeng, Mark Suska, M. Lenihan, Lauren Capelluto, Nasser Alidoust, Alexa Staley, Alexander Papageorge, Catvu Bui, M. Pelstring, Yuvraj Mohan, Riccardo Manenti, R. Chilcott, Joel Angeles, Guenevere E. D. K. Prawiroatmodjo, Russ Renzas
Publikováno v:
Science Advances
Harnessing techniques from analog signal processing, we establish a new path for large-scale quantum computation.
We show that parametric coupling techniques can be used to generate selective entangling interactions for multi-qubit processors. B
We show that parametric coupling techniques can be used to generate selective entangling interactions for multi-qubit processors. B
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::a477af5da78ac2b49555620b3b21bac3