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Parametrically Activated Entangling Gates Using Transmon Qubits

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

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Demonstration of Universal Parametric Entangling Gates on a Multi-Qubit Lattice

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

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::a477af5da78ac2b49555620b3b21bac3

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