Groups
Jorge Casanova
Quantum Sensing
The International Center Quantum Computing and Quantum Technologies (QUTIS), led by Prof. Enrique Solano, develops cutting-edge theoretical research for the sake of fundamentals and applications in interdisciplinary fields related to quantum computing and quantum technologies. We relate concepts in quantum optics (Prof. Xi Chen), quantum information (Prof. Iñigo Egusquiza), quantum matter (Prof. Enrique Rico), quantum sensing (Dr. Jorge Casanova), microwave quantum technologies and quantum architectures (Dr. Mikel Sanz), and quantum artificial intelligence (Prof. Enrique Solano). QUTIS Center is a dynamic, hard-working, and creative network of research groups led by world-class leaders with wide interests in arts, physics, science, technology, and entrepreneurship. We are strongly driven by intellectual curiosity, keeping as our main goal our aesthetic and scientific expression in an interdisciplinary and international environment. At the same time, we constantly search that our original cross-disciplinary ideas have a realistic approach towards experimental implementations and technological applications. QUTIS Center is committed to the team-oriented production of novel and influential ideas at the highest research level, where creative and innovative concepts merge with quantum technologies.
Publications of 2019
——- Publications of 2021
J.J. Zhu, X. Chen. Fast-forward scaling of atom-molecule conversion in Bose-Einstein condensates. Phys. Rev. A (2021) 103, 023307
Y. Ding, X. Chen, L. Lamata, E. Solano, M. Sanz. Implementation of a Hybrid Classical-Quantum Annealing Algorithm for Logistic Network Design. SN Computer Science (2021) 2, 68.
Q. Zhang, X. Chen, D. Guéry-Odelin. Connection between inverse engineering and optimal control in shortcuts to adiabaticity. Entropy 2021, 23(1), 84.
N.N. Hegade, et al. Shortcuts to adiabaticity in digitized adiabatic quantum computing. Phys. Rev. Applied 2021
M. Mirjani; M. Soleimani; V. Salari. Toxicity assessment of total petroleum hydrocarbons in aquatic environments using the bioluminescent bacterium. Ecotoxicol. Environ. Safety 2021, 207, 111554.
——- Publications of 2020
16- C. Munuera-Javaloy; Y. Ban; X. Chen; J. Casanova. Robust Detection of High-Frequency Signals at the Nanoscale. Phys. Rev. Applied 2020, 14, 054054.
Jing-Jun Zhu, Xi Chen, Hans-Rudolf Jauslin, and Stéphane Guérin, Robust control of unstable nonlinear quantum systems. Phys. Rev. A 2020, 102, 052203.
T.Y. Huang; J. Zhang; J. Li; X. Chen. Time-optimal variational control of a bright matter-wave soliton. Phys. Rev. A 2020
Y. Wang; Y. Su; X. Chen; C. Wu. Dephasing-Protected Scalable Holonomic Quantum Computation on a Rabi Lattice. Phys. Rev. Applied 2020, 14, 044043
B.O. Goes; G.T. Landi; E. Solano; M. Sanz; L. C. Céleri. Wehrl entropy production rate across a dynamical quantum phase transition. Phys. Rev. Research 2020, 2, 033419.
Galicia, A.; Ramon, B.; Solano, E.; Sanz, M. Enhanced connectivity of quantum hardware with digital-analog control. Phys. Rev. Research 2020, 2, 033103.
Ding, Y.; Huang, T.Y.; Paul, K.; Hao, M.; and Chen, X. Smooth bang-bang shortcuts to adiabaticity for atomic transport in a moving harmonic trap. Phys. Rev. A 2020, 101, 063410.
Kong, Q.; Ying, H.; Chen, X. Shortcuts to Adiabaticity for Optical Beam Propagation in Nonlinear Gradient Refractive-Index Media. Entropy 2020, 22, 673.
Hu, F.; Lamata, L.; Wang, C.; Chen, X.; Solano, E.; Sanz, M. Quantum Advantage in Cryptography with a Low-Connectivity Quantum Annealer. Phys. Rev. Applied 2020, 13, 054062.
Olivares-Sánchez, J.; Casanova, J.; Solano, E.; Lamata, L. Measurement-Based Adaptation Protocol with Quantum Reinforcement Learning in a Rigetti Quantum Computer. Quantum Reports 2020, 2(2), 293-304
Zhang, J.N.; Arrazola, I.; Casanova, J.; Lamata, L.; Kim, K.; Solano, E. Probabilistic eigensolver with a trapped-ion quantum processor. Phys. Rev. A 2020, 101, 052333.
Sun, J.; Chen, Y.; Chen, X.; Zhang Y. Bright solitons in a spin-tensor-momentum-coupled Bose-Einstein condensate. Phys. Rev. A 2020, 101, 053621.
Wang, Z.; Casanova, J.; Plenio, M.B. Enhancing the Robustness of Dynamical Decoupling Sequences with Correlated Random Phases. Symmetry 2020, 12(5), 730.
Xu, T.N.; Jing Li, Busch, T.; Chen, X.; Fogarty, T. Effects of coherence on quantum speed limits and shortcuts to adiabaticity in many-particle systems. Phys. Rev. Research 2020, 2, 023125.
Hu, F.; Lamata, L.; Wang, C.; Chen, X.; Solano, E.; Sanz, M. Quantum advantage in cryptography with a low-connectivity quantum annealer. Phys. Rev. Applied 2020
Cong, L.; Felicetti, S.; Casanova, J.; Lamata, L.; Solano, E.; Arrazola, I. Selective interactions in the quantum Rabi model. Phys. Rev. A 2020, 101, 032350.
Ding, Y.; Martín-Guerrero, J.D.; Sanz, M.; Magdalena-Benedicto, R.; Chen, X.; Solano, E. Retrieving quantum information with active learning. Phys. Rev. Lett. 2020, 124, 140504.
Munuera-Javaloy, C.; Arrazola, I.; Solano, E.; and Casanova, J. Double quantum magnetometry at large static magnetic fields. Phys. Rev. B 2020, 101, 104411
Xin, T. et. al. Quantum algorithm for solving linear differential equations: Theory and experiment. Phys. Rev. A 2020, 101, 032307.
Arrazola, I.; Plenio, M.B.; Solano, E.; Casanova, J. Hybrid Microwave-Radiation Patterns for High-Fidelity Quantum Gates with Trapped Ions. Phys. Rev. Applied 2020, 13, 024068.
Gonzalez-Raya, T.; Lukensvdf, J.M; Céleri, L.C.; Sanz, M. Quantum Memristors in Frequency-Entangled Optical Fields. Materials 2020, 13(4), 864
Parra-Rodriguez, A.; Lougovski, P.; Lamata, L.; Solano, E.; Sanz, M. Digital-analog quantum computation. Phys. Rev. A 2020, 101, 022305.
Albarrán-Arriagada, F.; Retamal, J.C.; Solano, E.; Lamata, L. Reinforcement learning for semi-autonomous approximate quantum eigensolver. Machine Learning: Science and Technology. 2020, 1 015002.
Gonzalez-Raya, T.; Solano, E.; Sanz, M. Quantized Three-Ion-Channel Neuron Model for Neural Action Potentials. Quantum 2020, 4, 224
Martin, A.; Lamata, L.; Solano, E.; Sanz, M. Digital-analog quantum algorithm for the quantum Fourier transform. Phys. Rev. Research 2020, 2, 013012
Silva, F.; Sanz, M.; Seixas, J.; Solano, E.; Omar, Y. Perceptrons from memristors. Neural Networks 2020, 122, 273
Esmaeilpour, T.; et al., Experimental Investigation of Ultraweak Photon Emission from Murine Neural Stem Cells, Scientific Reports 2020, 10, 463
Sherkatghanad, Z.; et al, Automated Detection of Autism Spectrum Disorder Using Convolutional Neural Network, Frontiers in Neuroscience 2020, 13, 1325
Hu, F.; Lamata, L.; Sanz, M.; Chen, X.; Cheng, X.; Wang, C.; Solano, E. Quantum computing cryptography: Finding cryptographic Boolean functions with quantum annealing by a 2000 qubit D-wave quantum computer. Phys. Lett. A 2020, 3, 126214
——- Publications of 2019
Barrios, G.A.; Retamal, J.C.; Solano, E.; Sanz, M. Analog simulator of integro-differential equations with classical memristors. Scientific Reports 2019, 9, 12928
Gonzalez-Raya, T.; Cheng, X.H.; Egusquiza, I.L.; Chen, X.; Sanz, M.; Solano, E. Quantized Hodgkin-Huxley Model for Quantum Neurons, Phys. Rev. Applied 2019, 12, 014037
Forn-Díaz, P.; Lamata, L.; Rico, E.; Kono, J.; Solano, E. Ultrastrong coupling regimes of light-matter interaction, Rev. Mod. Phys. 2019, 91, 25005
Pogorzalek, S.; Fedorov, K. G.; Xu, M.; Parra-Rodriguez, A.; Sanz, M.; Fischer, M.; Xie, E.; Inomata, K.; Nakamura, Y.; Solano, E.; Marx, A.; Deppe, F. ; Gross, R.; Secure quantum remote state preparation of squeezed microwave states, Nat. Commun. 2019, 10, 2604
Casanova, J.; Torrontegui, E.; Plenio, M. B.; García-Ripoll, J. J.; Solano, E. Modulated Continuous Wave Control for Energy-efficient Electron-nuclear Spin Coupling, Phys. Rev. Lett. 2019, 122, 010407
Alaeian, H.; Chang, C.W.C; Vahdani Moghaddam M.; Wilson C.M., Solano E.; Rico, E.; Lattice gauge fields via modulation in circuit QED: The bosonic Creutz ladder, Phys. Rev. A 2019, 99, 053834
Wang, Z.Y.; Lang, J.E.; Schmitt, S.; Lang, J.; Casanova, J.; McGuinness, L.; Monteiro, T.S.; Jelezko, F.; Plenio, M.B. Randomisation of Pulse Phases for Unambiguous and Robust Quantum Sensing. Phys. Rev. Lett. 2019, 122, 200403
Arrazola, I.; Solano, E.; Casanova, J. Selective Hybrid Spin Interactions with Low Radiation Power, Phys. Rev. B 2019, 99, 245405
Agustí, A.; Solano, E.; Sabín, C. Entanglement through qubit motion and the dynamical Casimir effect, Phys. Rev. A 2019, 99, 052328
Parra-Rodriguez, A. ; Egusquiza, I. L.; DiVincenzo, D. P.; Solano, E. Canonical circuit quantization with linear nonreciprocal devices, Phys. Rev. B 2019, 99, 014514
Puebla, R.; Casanova, J.; Houhou, O.; Solano, E.; Paternostro, M. Quantum simulation of multiphoton and nonlinear dissipative spin-boson models, Phys. Rev. A 2019, 99, 032303
Lupo, E.; Napoli, A.; Messina, A.; Solano, E.; Egusquiza, I.L. A continued fraction based approach for the Two-photon Quantum Rabi Model, Scientific Reports, 2019, 9, 4156
Cárdenas-López, F. A.; Sanz, M.; Retamal, J. C.; Solano, E. Enhanced Quantum Synchronization via Quantum Machine Learning, Adv. Quantum Technol. 2019, 1800076
Lamata, L.; Alvarez-Rodriguez, U.; Martín-Guerrero, J. D.; Sanz, M.; Solano, E. Quantum autoencoders via quantum adders with genetic algorithms, Quantum Sci. Technol. 2019, 4, 014007
Yu, S.; Albarran-Arriagada, F.; Retamal, J. C.; Wang, Y.T.; Liu, W.; Ke, Z.J.; Meng, Y.; Li, Z.P.; Tang, J.S.; Solano, E. ; Lamata, L.; Li, C.F.; Guo, G.C. Reconstruction of a Photonic Qubit State with Reinforcement Learning, Adv. Quantum Technol. 2019, 2, 1800074
Ding, Y.; Lamata, L.; Sanz, M.; Chen, X.; Solano, E. Experimental Implementation of a Quantum Autoencoder via Quantum Adders, Adv. Quantum Technol. 2019, 1800065
Cárdenas-López, F.A.; Romero, G. ; Lamata, L.; Solano, E. ; Retamal, J.C. Parity-assisted generation of nonclassical states of light in circuit quantum electrodynamics, Symmetry 2019, 11(3), 372
Puebla, R. ; Zicari, G.; Arrazola, I.; Solano, E.; Paternostro, M.; Casanova, J. Spin-boson model as a simulator of non-Markovian multiphoton Jaynes-Cummings models, Symmetry 2019, 11(5), 695
———-Publications of 2018
Zhang, X.; Zhang, K.; Shen, Y.; Zhang, S .; Zhang, JN.; Yung, MH.; Casanova, J.; et al. Experimental quantum simulation of fermion-antifermion scattering via boson exchange in a trapped ion, Nature communications 2018, 9(1), 195, 7
Lamata, L.; Parra-Rodriguez, A.; Sanz, M.; Solano, E. Digital-analog quantum simulations with superconducting circuits, Advances in Physics 2018, 3(1), 1457981
Rico, E.; Dalmonte, M.; Zoller, P.; Banerjee, D.; Bogli, M.; Stebler, P.; Wiese, U.J. SO(3) Nuclear Physics with ultracold Gases. Annals Phys. 2018, 393, 466-483
Casanova, J.; Puebla, R.; Moya-Cessa, H.; Plenio, MB. Connecting n th order generalised quantum Rabi models: Emergence of nonlinear spin-boson coupling via spin rotations, npj Quantum Information 2018, 4(1), 47
Alvarez-Rodriguez, U.; Sanz, M.; Lamata, L.; Solano, E. Quantum artificial life in an IBM quantum computer, Scientific Reports 2018, 8, 26
Haase, JF.; Wang, ZY.; Casanova, J.; Plenio, MB. Soft Quantum Control for Highly Selective Interactions among Joint Quantum Systems, Phys. Rev. Lett. 2018, 121 (5), 050402
Fedorov, KG.; Pogorzalek, S.; Las Heras, U.; Sanz, M.; Yard, P.; Eder, P. et al. Finite-time quantum entanglement in propagating squeezed microwaves, Scientific Reports 2018, 8 (1), 6416, 4
Pedernales, JS.; Beau, M.; Pittman, SM.; Egusquiza, IL.; Lamata, L.; Solano, E. Dirac Equation in ()-Dimensional Curved Spacetime and the Multiphoton Quantum Rabi Model, Phys. Rev. Lett. 2018, 120 (16), 160403, 12
Lv, D.; An, S.; Liu, Z.; Zhang, JN.; Pedernales, JS.; Lamata, L.; Solano, E.; Kim, K. Quantum simulation of the quantum Rabi model in a trapped ion, Physical Review X 2018, 8 (2), 021027, 28
Casanova, J.; Wang, Z.Y.; Schwartz, I.; Plenio, MB. Shaped Pulses for Energy Efficient High-Field NMR at the Nanoscale, Physical Review Applied 2018, 10 (4), 044072
Perlin, MA.; Wang, Z.Y.; Casanova, J.; Plenio, M.B. Noise-resilient architecture of a hybrid electron-nuclear quantum register in diamond, Quantum Science and Technology 2018, 4 (1), 015007
Capela, M.; Sanz, M.; Solano, E.; Céleri, L.C. Kolmogorov-Sinai entropy and dissipation in driven classical Hamiltonian systems, Physical Review E 2018, 98 (5), 052109
Grimaudo, R.; Lamata, L.; Solano, E.; Messina, A. Cooling of many-body systems via selective interactions, Physical Review A 2018, 98 (4), 042330, 6
Lamata, L.; Alvarez-Rodriguez, U.; Martín-Guerrero, J.D.; Sanz, M.; Solano, E. Quantum autoencoders via quantum adders with genetic algorithms, Quantum Science and Technology 2018, 4 (1), 014007, 13
Albarrán-Arriagada, F.; Retamal, J.C.; Solano, E.; Lamata, L. Measurement-based adaptation protocol with quantum reinforcement learning, Physical Review A 2018, 98 (4), 042315, 13
Klco, N.; Dumitrescu, E.F.; McCaskey, A.J.; Morris, T.D.; Pooser, R.C.; Sanz, M. et al. Quantum-classical computation of Schwinger model dynamics using quantum computers, Physical Review A 2018, 98 (3), 032331
Arrazola, I.; Casanova, J.; Pedernales, J.S.; Wang, Z.Y.; Solano, E.; Plenio, MB. Pulsed dynamical decoupling for fast and robust two-qubit gates on trapped ions, Physical Review A 2018, 97 (5), 052312
Albarrán-Arriagada, F.; Barrios, G.A.; Sanz, M.; Romero, G.; Lamata, L. et al. One-way quantum computing in superconducting circuits. Physical Review A 2018, 97 (3), 032320, 6
Cheng, X.H.; Arrazola, I.; Pedernales, J.S.; Lamata, L.; Chen, X.; Solano, E. Nonlinear quantum Rabi model in trapped ions, Physical Review A 2018, 97(2), 023624, 9
Xin, T.; Pedernales, J.S.; Solano, E.; Long, G.L. Entanglement measures in embedding quantum simulators with nuclear spins, Physical Review A 2018, 97 (2), 022322, 5
Albarrán-Arriagada, F.; Lamata, L.; Solano, E.; Romero, G.; Retamal, J.C. Spin-1 models in the ultrastrong-coupling regime of circuit QED, Physical Review A 2018, 97 (2), 022306
Felicetti, S.; Rossatto, D.Z.; Rico, E.; Solano, E.; Forn-Díaz, P. Two-photon quantum Rabi model with superconducting circuits, Physical Review A 2018, 97 (1), 013851, 22
Puebla, R.; Casanova, J.; Plenio, M. B. Magnetic field fluctuations analysis for the ion trap implementation of the quantum Rabi model in the deep strong coupling regime, Journal of Modern Optics 2018, 65 (5-6), 745-753
Solano, E. A perspective on quantum simulations, Quantum Simulators 2018, 198, 209
Sanz, M.; Lamata, L.; Solano, E. Quantum memristors in quantum photonics, APL Photonics 2018, 3 (8), 080801, 8
Parra-Rodriguez, A.; Rico, E.; Solano, E.; Egusquiza, I.L. Quantum networks in divergence-free circuit QED, Quantum Science and Technology 2018, 3 (2), 024012, 7
Cárdenas-López, F.A.; Lamata, L.; Retamal, J.C.; Solano, E. Multiqubit and multilevel quantum reinforcement learning with quantum technologies, PloS one 2018, 13 (7), e0200455, 7
Domínguez, F.; Gutiérrez, M.J.; Arrazola, I.; Berrocal, J.; Cornejo, J.M. Et al. Motional studies of one and two laser-cooled trapped ions for electric-field sensing applications, Journal of Modern Optics 2018, 65 (5-6), 613-621, 4
Sanz, M.; Lamata, L.; Solano, E. Quantum memristors in quantum photonics. APL Photonics 2018, 3, 080801
Sanz, M.; Fedorov, K.G.; Deppe, F.; Solano, E. Challenges in Open-air Microwave Quantum Communication and Sensing, IEEE Conference on Antenna Measurements & Applications (CAMA), 2018, 2, 1-4
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We look forward to being a part of the #MunichQuantumValley to advance global quantum development. Our CEO @JanGoetz6 will join a panel discussion at 1130 CET today.
With @badw_muenchen, @Fraunhofer, @LMU_Muenchen, @maxplanckpress, @TU_Muenchen
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Last month we were honoured to host the Hon. Ambassador of France to Finland, Ms. Agnés Cukierman, the Science and Higher Education Attaché Ms Elena Ceccarelli and the Counsellor of Economic Affairs Ms Patricia Pouliquen at our headquarters in Espoo, Finland. (1/4)
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Just for fun, systems above 100 qubits would be sufficient to encode a brute-force solution for games of chess-like complexity - really like this 🙂 @qmisanz and @KikeSolanoPhys https://twitter.com/qmisanz/status/1366661893776097287
We advance classical-to-quantum data compression for quantum computing https://arxiv.org/abs/2103.01204 via quantum contextual redundancy. Great creativity @Gatgian, top supervision D. Huerga, leadership @qmisanz @OpenSuperQ We keep rocking @QuantumFlagship @meetIQM @IBMResearch @GoogleAI https://twitter.com/qmisanz/status/1366661893776097287
@qmisanz @QUTIS3 @Gatgian @KikeSolanoPhys Giancarlo I don't work with you but I'm very proud of you too 😀 😉
Randomized benchmarking applied to quantum computing with digital gates, see https://arxiv.org/abs/2010.07974 As @jenseisert mentioned, time to apply it to our Digital-Analog Quantum Computers (DAQC) @meetIQM related to our #DAQC project funded by @BMBF_Bund @QuantenTech @QuantumFlagship https://twitter.com/jenseisert/status/1366696409886584832
