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Documents dont l'auteur est "Quesada, Nicolás"

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Nombre de documents: 75

Article de revue

Martínez-Cifuentes, J., Guise, H. , & Quesada, N. (2024). Linear cross-entropy certification of quantum computational advantage in Gaussian Boson sampling. PRX Quantum, 5(4), 040312 (44 pages). Disponible

Cardin, Y., & Quesada, N. (2024). Photon-number moments and cumulants of Gaussian states. Quantum, 8, 1521-1521. Lien externe

Oh, C., Fefferman, B., Jiang, L., & Quesada, N. (2024). Quantum-inspired classical algorithm for graph problems by Gaussian Boson sampling. PRX quantum, 5(2), 020341 (15 pages). Disponible

Chinni, K., & Quesada, N. (2024). Beyond the parametric approximation: Pump depletion, entanglement, and squeezing in macroscopic down-conversion. Physical Review A, 110(1), 01312 (21 pages). Lien externe

Houde, M., McCutcheon, W., & Quesada, N. (2024). Matrix decompositions in quantum optics: Takagi/Autonne, Bloch-Messiah/Euler, Iwasawa, and Williamson. Canadian Journal of Physics, 102(10), 497-507. Lien externe

Houde, M., & Quesada, N. (2024). Perfect pulsed inline twin-beam squeezers. Avs Quantum Science, 6(2), 021402. Lien externe

Yao, Y., Miatto, F., & Quesada, N. (2024). Riemannian optimization of photonic quantum cricuits in phase and Fock space. SciPost, 17(3), 082 (44 pages). Lien externe

Martínez-Cifuentes, J., Romero, K. M. F., & Quesada, N. (2023). Classical models may be a better explanation of the Jiuzhang 1.0 Gaussian Boson Sampler than its targeted squeezed light model. Quantum, 7, 1076 (20 pages). Disponible

Poveda-Hospital, S., Peter, Y.-A., & Quesada, N. (2023). Custom nonlinearity profile for integrated quantum light sources. Physical Review Applied, 19(5), 054033 (9 pages). Disponible

Houde, M., & Quesada, N. (2023). Waveguided sources of consistent, single-temporal-mode squeezed light: The good, the bad, and the ugly. AVS Quantum Science, 5(1), 15 pages. Lien externe

Quesada, N., Helt, L. G., Menotti, M., Liscidini, M., & Sipe, J. E. (2022). Beyond photon pairs: Nonlinear quantum photonics in the high-gain regime: a tutorial. Advances in Optics and Photonics, 14(3), 291-403. Lien externe

Grier, D., Brod, D. J., Arrazola, J. M., de Andrade Alonso, M. B., & Quesada, N. (2022). The Complexity of Bipartite Gaussian Boson Sampling. Quantum, 6, 44 pages. Disponible

Quesada, N., Chadwick, R. S., Bell, B. A., Arrazola, J. M., Vincent, T., Qi, H., & Garcia-Patron, R. (2022). Quadratic Speed-Up for Simulating Gaussian Boson Sampling. PRX Quantum, 3(1), 010306 (8 pages). Lien externe

Deshpande, A., Mehta, A., Vincent, T., Quesada, N., Hinsche, M., Ioannou, M., Madsen, L., Lavoie, J., Qi, H., Eisert, J., Hangleiter, D., Fefferman, B., & Dhand, I. (2022). Quantum computational advantage via high-dimensional Gaussian boson sampling. Science Advances, 8(1), 15 pages. Lien externe

Bulmer, J. F. F., Paesani, S., Chadwick, R. S., & Quesada, N. (2022). Threshold detection statistics of bosonic states. Physical Review A, 106(4), 043712 (14 pages). Lien externe

Kalajdzievski, T., & Quesada, N. (2021). Exact and approximate continuous-variable gate decompositions. Quantum, 5, 394-394. Lien externe

Arrazola, J. M., Bergholm, V., Brádler, K., Bromley, T. R., Collins, M. J., Dhand, I., Fumagalli, A., Gerrits, T., Goussev, A., Helt, L. G., Hundal, J., Isacsson, T., Israel, R. B., Izaac, J., Jahangiri, S., Janik, R., Killoran, N., Kumar, S. P., Lavoie, J., ... Zhang, Y. (2021). Quantum circuits with many photons on a programmable nanophotonic chip. Nature, 591(7848), 54-60. Lien externe

Bromley, T. R., Arrazola, J. M., Jahangiri, S., Izaac, J., Quesada, N., Gran, A. D., Schuld, M., Swinarton, J., Zabaneh, Z., & Killoran, N. (2020). Applications of near-term photonic quantum computers: software and algorithms. Quantum Science and Technology, 5(3), 034010. Lien externe

Vaidya, V. D., Morrison, B., Helt, L. G., Shahrokshahi, R., Mahler, D. H., Collins, M. J., Tan, K., Lavoie, J., Repingon, A., Menotti, M., Quesada, N., Pooser, R. C., Lita, A. E., Gerrits, T., Nam, S. W., & Vernon, Z. (2020). Broadband quadrature-squeezed vacuum and nonclassical photon number correlations from a nanophotonic device. Science Advances, 6(39), eaba9186. Lien externe

Gupt, B., Arrazola, J. M., Quesada, N., & Bromley, T. R. (2020). Classical benchmarking of Gaussian Boson Sampling on the Titan supercomputer. Quantum Information Processing, 19(8), 249-249. Lien externe

Helt, L. G., & Quesada, N. (2020). Degenerate squeezing in waveguides: a unified theoretical approach. Journal of Physics: Photonics, 2(3), 035001. Lien externe

Quesada, N., & Arrazola, J. M. (2020). Exact simulation of Gaussian boson sampling in polynomial space and exponential time. Physical Review Research, 2(2), 023005. Lien externe

Miatto, F. M., & Quesada, N. (2020). Fast optimization of parametrized quantum optical circuits. Quantum, 4, 366-366. Lien externe

Jahangiri, S., Arrazola, J. M., Quesada, N., & Killoran, N. (2020). Point processes with Gaussian boson sampling. Physical Review E, 101(2), 022134. Lien externe

Jahangiri, S., Arrazola, J. M., Quesada, N., & Delgado, A. (2020). Quantum algorithm for simulating molecular vibrational excitations. Physical Chemistry Chemical Physics, 22(44), 25528-25537. Lien externe

Qi, H., Brod, D. J., Quesada, N., & García-Patrón, R. (2020). Regimes of Classical Simulability for Noisy Gaussian Boson Sampling. Physical Review Letters, 124(10), 100502. Lien externe

Quesada, N., Triginer, G., Vidrighin, M. D., & Sipe, J. E. (2020). Theory of high-gain twin-beam generation in waveguides: From Maxwell's equations to efficient simulation. Physical Review A, 102(3), 033519. Lien externe

Banchi, L., Quesada, N., & Arrazola, J. M. (2020). Training Gaussian boson sampling distributions. Physical Review A, 102(1), 012417. Lien externe

Triginer, G., Vidrighin, M. D., Quesada, N., Eckstein, A., Moore, M., Kolthammer, W. S., Sipe, J.  E., & Walmsley, I. A. (2020). Understanding High-Gain Twin-Beam Sources Using Cascaded Stimulated Emission. Physical Review X, 10(3), 031063. Lien externe

Quesada, N., & Brańczyk, A. M. (2019). Broadband pseudothermal states with tunable spectral coherence generated via nonlinear optics. Physical Review A, 99(1), 013830. Lien externe

Killoran, N., Bromley, T. R., Arrazola, J. M., Schuld, M., Quesada, N., & Lloyd, S. (2019). Continuous-variable quantum neural networks. Physical Review Research, 1(3), 033063. Lien externe

Björklund, A., Gupt, B., & Quesada, N. (2019). A Faster Hafnian Formula for Complex Matrices and Its Benchmarking on a Supercomputer. ACM Journal of Experimental Algorithmics, 24, 1-17. Lien externe

Quesada, N. (2019). Franck-Condon factors by counting perfect matchings of graphs with loops. Journal of Chemical Physics, 150(16), 164113. Lien externe

Quesada, N., Adjei, E., El-Ganainy, R., & Brańczyk, A. M. (2019). Non-Hermitian engineering for brighter broadband pseudothermal light. Physical Review A, 100(4), 043805. Lien externe

Vernon, Z., Quesada, N., Liscidini, M., Morrison, B., Menotti, M., Tan, K., & Sipe, J. E. (2019). Scalable Squeezed-Light Source for Continuous-Variable Quantum Sampling. Physical Review Applied, 12(6), 064024. Lien externe

Quesada, N., Helt, L. G., Izaac, J., Arrazola, J. M., Shahrokhshahi, R., Myers, C. R., & Sabapathy, K. K. (2019). Simulating realistic non-Gaussian state preparation. Physical Review A, 100(2), 022341. Lien externe

Killoran, N., Izaac, J., Quesada, N., Bergholm, V., Amy, M., & Weedbrook, C. (2019). Strawberry Fields: A Software Platform for Photonic Quantum Computing. Quantum, 3, 129-129. Lien externe

Gupt, B., Izaac, J., & Quesada, N. (2019). The Walrus: a library for the calculation of hafnians, Hermite polynomials and Gaussian boson sampling. Journal of Open Source Software, 4(44). Lien externe

Quesada, N., Arrazola, J. M., & Killoran, N. (2018). Gaussian boson sampling using threshold detectors. Physical Review A, 98(6), 062322. Lien externe

Quesada, N., & Brańczyk, A. M. (2018). Gaussian functions are optimal for waveguided nonlinear-quantum-optical processes. Physical Review A, 98(4), 043813. Lien externe

Quesada, N., & Sipe, J. E. (2017). Why you should not use the electric field to quantize in nonlinear optics. Optics Letters, 42(17), 3443-3446. Lien externe

Quesada, N., & Sipe, J. E. (2016). High efficiency in mode-selective frequency conversion. Optics Letters, 41(2), 364-367. Lien externe

Sahota, J., Quesada, N., & James, D. F. V. (2016). Physical resources for optical phase estimation. Physical Review A, 94(3), 033817. Lien externe

Sahota, J., & Quesada, N. (2015). Quantum correlations in optical metrology: Heisenberg-limited phase estimation without mode entanglement. Physical Review A, 91(1), 013808. Lien externe

Quesada, N., & Sipe, J.  E. (2015). Time-Ordering Effects in the Generation of Entangled Photons Using Nonlinear Optical Processes. Physical Review Letters, 114(9), 093903. Lien externe

Quesada, N., & Sipe, J. E. (2014). Effects of time ordering in quantum nonlinear optics. Physical Review A, 90(6), 063840. Lien externe

Quesada, N., & Sanpera, A. (2013). Bound entanglement in the Jaynes–Cummings model. Journal of Physics B: Atomic, Molecular and Optical Physics, 46(22), 224002. Lien externe

Quesada, N., Brańczyk, A. M., & James, D. F. V. (2013). Self-calibrating tomography for multidimensional systems. Physical Review A, 87(6), 062118. Lien externe

Quesada, N., Al-Qasimi, A., & James, D. F. V. (2012). Quantum properties and dynamics of X states. Journal of Modern Optics, 59(15), 1322-1329. Lien externe

Quesada, N. (2012). Strong coupling of two quantum emitters to a single light mode: The dissipative Tavis-Cummings ladder. Physical Review A, 86(1), 013836. Lien externe

Quesada, N., Vinck-Posada, H., & Rodríguez, B. A. (2011). Density operator of a system pumped with polaritons: a Jaynes-Cummings-like approach. Journal of Physics: Condensed Matter, 23(2), 025301. Lien externe

Quesada, N., & Moyano, G. E. (2010). Melting of Lennard-Jones rare-gas clusters doped with a single impurity atom. Physical Review B, 82(5). Lien externe

Vera, C. A., Quesada, N., Vinck-Posada, H., & Rodríguez, B. A. (2009). Characterization of dynamical regimes and entanglement sudden death in a microcavity quantum dot system. Journal of Physics: Condensed Matter, 21(39), 395603. Lien externe

Communication écrite

Chinni, K., & Quesada, N. (mai 2024). Beyond the parametric approximation: pump depletion, entanglement and squeezing in down-conversion [Communication écrite]. Science and Innovations 2024, Charlotte, NC, USA. Lien externe

Poveda-Hospital, S., Quesada, N., & Peter, Y.-A. (juillet 2024). PIN-PMN-PT electro-optic phase modulator [Communication écrite]. International Conference on Optical MEMS and Nanophotonics (OMN 2024), San Sebastian, Spain (2 pages). Lien externe

Houde, M., & Quesada, N. (mai 2023). Waveguided sources of consistent, single-temporal-mode squeezed light: the good, the bad, and the ugly [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO 2023), San Jose, CA, USA. Lien externe

Cifuentes, D., Qi, H., Bradler, K., Israel, R., Kalajdzievski, T., & Quesada, N. (mars 2021). Computation of banded hafnians and applications in optical quantum computing [Communication écrite]. Spring Eastern Virtual Sectional Meeting. Lien externe

Banic, M., Liscidini, M., Quesada, N., & Sipe, J. E. (mai 2021). Spontaneous and Stimulated Three Photon Generation [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO_QELS 2021), San Jose, California. Lien externe

Vidrighin, M. D., Triginer, G., Quesada, N., Eckstein, A., Moore, M., Kolthammer, W. S., Sipe, J. E., & Walmsley, I. A. (mai 2020). High-Gain Twin-Beam Generation in Waveguides: Experimental Characterization Using Cascaded Stimulated Emission [Communication écrite]. Conference on Lasers and Electro-Optics, Washington, D.C.. Lien externe

Shahrokhshahi, R., Morrison, B., Collins, M. J., Helt, L. G., Quesada, N., Mahler, D. H., Tan, K., Vaidya, V. D., Repingon, A., Lavoie, J., Menotti, M., Pooser, R. C., Lita, A., Nam, S. W., Gerrits, T., & Vernon, Z. (mai 2019). Beyond photon pairs: Nanophotonic photon number difference squeezing [Communication écrite]. Conference on Lasers and Electro-Optics, San Jose, California. Lien externe

Quesada, N., & Sipe, J.  E. The effects of self- and cross-phase modulation in the generation of bright twin beams using SPDC [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO 2017), San Jose, Calif.. Lien externe

Quesada, N., & Sipe, J. E. (mars 2016). High efficiency in Mode Selective Frequency Conversion for Optical Quantum Information Processing [Communication écrite]. APS March Meeting 2016, Baltimore, Maryland. Lien externe

Sahota, J., Quesada, N., & James, D. F. V. (octobre 2016). Quantum resources for optical phase estimation [Communication écrite]. Frontiers in Optics 2016, Rochester, New York. Lien externe

Quesada, N., & Sahota, J. (mai 2015). Particle vs. mode entanglement in optical quantum metrology [Communication écrite]. Conference on Lasers and Electro-Optics (CLEO 2015), San Jose, California, USA. Lien externe

Quesada, N., Brańczyk, A. M., & James, D. F. V. (octobre 2013). Holistic Quantum State and Process Tomography [Communication écrite]. Frontiers in Optics 2013, Orlando, Florida. Lien externe

Quesada, N. (juin 2013). Quantum correlations in a mixed full rank qubit-qudit system: Discord and entanglement in the Jaynes-Cummings model [Communication écrite]. Rochester Conferences on Coherence and Quantum Optics and the Quantum Information and Measurement meeting, Rochester, New York. Lien externe

Quesada, N., Brańczyk, A. M., & James, D. F. V. (juin 2013). Self-calibrating tomography for non-unitary processes [Communication écrite]. Rochester Conferences on Coherence and Quantum Optics and the Quantum Information and Measurement meeting, Rochester, New York. Lien externe

Quesada, N., & James, D. F. V. (octobre 2011). An equation of motion for the concurrence of 2 qubit pure states [Communication écrite]. Frontiers in Optics 2011/Laser Science XXVII, San Jose, California. Lien externe

Quesada, N., Cárdenas, P. C., Vinck-Posada, H., & Rodríguez, B. A. (octobre 2011). Strong coupling criterion for two interacting excitons in a nanocavity [Communication écrite]. Frontiers in Optics 2011/Laser Science XXVII, San Jose, California. Lien externe

Brevet

Vernon, Z., Kang, T. A. N., Morrison, B., Shahrokhshahi, R., Mahler, D., Menotti, M., & Quesada, N. (2020). Integrated devices for squeezed light generation. (Brevet no US10649307). Lien externe

Demande de brevet

Killoran, N., Bromley, T. R., Arrazola, J. M., Schuld, M., & Quesada, N. (2020). Apparatus and methods for quantum computing and machine learning. (Demande de brevet no US20200401920). Lien externe

Mémoire ou thèse hors Polytechnique

Quesada, N. (2015). Very Nonlinear Quantum Optics [Thèse de doctorat, University of Toronto]. Lien externe

Ensemble de données

Martínez-Cifuentes, J., Fonseca-Romero, K. M., & Quesada, N. (2022). Classical models are a better explanation of the Jiuzhang 1.0 Gaussian Boson Sampler than its targeted squeezed light model [Ensemble de données]. Lien externe

Livre

Quesada, N., & Moyano, G. E. (2011). Programas para la simulación numérica de nanoagregados. Cálculo de propiedades termodinámicas en plataforma distribuidas. Lien externe

Chapitre de livre

Moyanno, G. E., & Quesada, N. (2012). Simulación de nanomateriales mediante métodos tipo monte carlo. Dans Escobar, L. D. L. (édit.), Formación y modelación en ciencias básicas . Lien externe

Liste produite: Thu Nov 21 03:37:50 2024 EST.