Groups
The research group “Quantum Technologies for Information Science (QUTIS)”, led by Prof. Enrique Solano, develops cutting-edge theoretical research for the sake of fundamentals and their implementation in interdisciplinary quantum technologies. We relate concepts in quantum optics, quantum information, superconducting circuits, and quantum biomimetics, among others. QUTIS is a dynamic, hard-working, and creative group with wide interests in arts, physics, and science. We are strongly driven by intellectual curiosity, keeping as our main goal our aesthetic and scientific expression in a friendly competitive environment. At the same time, we constantly search that our original cross-disciplinary ideas have a realistic approach towards experimental implementations. QUTIS is committed to the team-oriented production of novel influential ideas at the international level, where creative ideas merge with quantum technologies.
Publications of 2017
Publications of 2017
Convergence of the multimode quantum Rabi model of circuit quantum electrodynamics
Convergence of the multimode quantum Rabi model of circuit quantum electrodynamics
Mario F. Gely, Adrian Parra-Rodriguez, Daniel Bothner, Ya. M. Blanter, Sal J. Bosman, Enrique Solano, and Gary A. Steele, Phys. Rev. B 95, 245115 (2017)
Finite-time quantum correlations of propagating squeezed microwaves
Finite-time quantum correlations of propagating squeezed microwaves
Kirill G. Fedorov, S. Pogorzalek, U. Las Heras, M. Sanz, P. Yard, P. Eder, M. Fischer, J. Goetz, E. Xie, K. Inomata, Y. Nakamura, R. Di Candia, E. Solano, A. Marx, F. Deppe, and R. Gross, arXiv:1703.05138 (2017).
Basic protocols in quantum reinforcement learning with superconducting circuits
Basic protocols in quantum reinforcement learning with superconducting circuits
Lucas Lamata, arXiv:1701.05131 (2017).
Dispersive Regimes of the Multiqubit Quantum Rabi Model
Dispersive Regimes of the Multiqubit Quantum Rabi Model
Diego Barberena, Lucas Lamata, and Enrique Solano, arXiv:1703.03377 (2017).
Latest Tweets
Recent QUTIS paper is uploaded in arXiv now:
I. Arrazola, M. B. Plenio, E. Solano, J. Casanova,
Hybrid Microwave Radiation Patterns for High-Fidelity Quantum Gates with Trapped Ions, arXiv:1911.03144. Congratulations! @KikeSolanoPhys @JorgeCasanovaM2 @qubit_ulm @upvehu
Our new preprint is out. Nice collaboration among @Ikerbasque @upvehu @qubit_ulm and @QUTIS3.
https://arxiv.org/abs/1911.03144
Our new preprint is out. Nice collaboration among @Ikerbasque @upvehu @qubit_ulm and @QUTIS3.
https://arxiv.org/abs/1911.03144
https://www.prefet.eu/trendington/
Looking forward to take part in this event next week, as one of the experts that will make recommendations to the EU Commission about future funding areas in FET calls!
It was a great pleasure to be in QUTIS. Looking forward to future collaborations. https://twitter.com/qmisanz/status/1191716331940388864
Welcome Shabir to our QUTIS Center, let us go ahead with daring collaborations in microwave quantum communication @upvehu @Ikerbasque @DIPCehu @nanoGUNE @artist_qu https://twitter.com/qmisanz/status/1191716331940388864
Great friends and scientists, Shabir and Vahid with the awesome background of Bilbao nightlife! https://twitter.com/SalariVahid/status/1191833038767960066
Creative and original stuff, Joachim, as is usual in our QUTIS Center. We will prepare a cool paper! @artist_qu @upvehu @Ikerbasque @DIPCehu @nanoGUNE https://twitter.com/QUTIS3/status/1189569666110373888
Aiming at 1 million qubits sounds like easy-to-tell number. John Martinis @GoogleAI has produced a landmark in history of humankind, not only history of science & technology. I will visit Google soon for dissemination, collaboration & business, I will let you know ... what I can.
