Livrables
The integration of single photon sources can provide a more scalable method for the generation of multi-photon states required for quantum simulations. We will develop a photonic chip that includes an array of single photon sources. The chip will be composed of a circuit to distribute light from the same pump laser to various spontaneous Four Wave Mixing waveguide sources and a frequency filtering stage.
Road map for quantum supremacy via Boson SamplingThe Boson Sampling problem suggests that some simple quantum optical systems produce outcomes that cannot be efficiently simulated by classical computation. Remarkably, the scale at which classical simulation is impossible with current technology may be achievable in the near term. We will produce a road map for experimentally demonstrating the superiority of a quantum machine over a classical machine for a computational task based on the Boson Sampling problem. The road map will reflect advances made in both theoretical issues - including validation of a Boson Sampling machine and the computational complexity of Boson Sampling variants with realistic experimental imperfections – as well as new experimental capabilities – including large coupled waveguide arrays, arrays of heralded photon sources, and efficient integrated photon detectors.
Polarization quantum walk on a chipAlthough most optical quantum computing experiments rely on polarization-encoded qubits, the majority of standard integrated-optic devices are unable to deal with such qubits, because of fast relative phase or amplitude decoherence. We are replacing the standardly used dual-rail encoding (where a qubit is encoded in two spatial modes) by laser-written waveguides that allow the processing of polarization- and path-encoded qubits.
Cryogenic operation of waveguide circuitsEfficient superconducting single photon detectors operate at temperatures of a few K. Fibre coupling to these detectors loses the advantage of high efficiency when detecting many photons. We will explore the function of a more integrated approach and test the operation of key waveguide features at cryogenic temperatures.
Hierarchy of validation testsCertifying that a Boson Sampling device is working as expected is crucial in a Boson Sampling experimental demonstration. To address this challenging problem we will investigate a tree-level hierarchy of validations tests. Several ideas that provide evidence that a Boson Sampling experiment is working correctly have been suggested. We will use the photon clouding effect and the cancellation effect Fourier interferometers to tests the quality of a Boson Sampling machine. Previous approaches provide a weaker certification guarantee. To reach the best certification quality we will adapt “computational certification” tools, such as interactive proofs or self-testing of quantum devices, to design certification protocols for Boson Sampling. Because the imperfection in a Boson Sampling test come from experimental noise, not from the action of a malicious agent, an intermediate approach that we will investigate consist in relaxing some of the assumption in “computational certification” to make the theoretical and experimental analysis easier while keeping most of its benefits.
2D quantum walkTaking advantage of the unique 3D capability of femtosecond-laser-writing technology, we will produce optical circuits in three-dimensional layouts as a platform for 2D quantum walk experiments. We will demonstrate both 2D arrays of straight waveguides for continuous quantum walks and cascaded directional couplers branching in 3D for discrete quantum walk experiments. Characterization of these structures will be provided with coherent light and these devices will be subsequently used in final experiments with multiple quantum walkers in D1.4
Integration of SSPD and waveguide circuitsSuperconducting single photon detectors (SSPD) will be fabricated directly onto waveguide circuit chips, to electrically readout the detection signals of single photons guided through said circuits. Two approaches will be pursued: 1) detector integration on glass waveguide circuits (CNR), 2) detector integration on SOI waveguides (USOTON, UBRIS). The aim is to target increased collection efficiency with evanescent mode overlap between the wave-guide and detector structures. As contingency plan, CNR will develop efficient nanowire SSPDs fiber-coupled to quantum photonic circuits. This will miniaturise the overall footprint of the photonic processor setup. This will enable the processor platform to utilise the fast response times of SSPDs and detection of single photons that are of visible-telecomm wavelengths.
Identification of noise effects on transport dynamics beyond classical dephasing modelThe most common characterization of dephasing processes is done in terms of a classically fluctuating field (Orstein-Uhlenbeck). This generally yields to master equation formulations that provide an accurate description of the system’s dynamics in the high temperature limit. However, many decoherence sources fall outside this description and require for its understanding the consideration of non trivial spectral densities. Using a unitary transformation that allows us to map out a spin-boson configuration into a spin coupled to a semi-infinite chain of harmonic oscillators with nearest neighbor couplings, we will characterize those effects on the transport dynamics whose origin can be unambiguously traced back to deviations from the action of a stationary, Gaussian, and markovian decoherence.
Photon cloudingPhoton clouding is a recently discovered phenomenon related to but different from bosonic bunching in which photons are found to cluster together in local groups of modes This effect has been useful for verifying Boson Sampling and we will further explore this application of clouding by tuning optical circuits to implement random unitary operations and then retune to implement unitaries that exhibit clouding
2nd periodic reportPeriodic report referring to the 2nd period (M19-M36) consisting in a technical report with a summary and an overview of the project progress, and a financial report, including all financial statements and an explanation of the use of resources.
1st periodic reportPeriodic report referring to the 1st period (M1-M18) consisting in a technical report with a summary and an overview of the project progress, and a financial report, including all financial statements and an explanation of the use of resources.
Simulation of small size quantum systemsRandom-walk structures and non-trivial two-qubit gates will be used for obtaining insight into the quantum correlations of other quantum systems. The Bosonic nature of photons as well as the capability of preparing anti-symmetric entangled states will be exploited for simulating properties that are hard for classical computers when scaling up the number of particles.
Scatter-shot Boson Sampling with complex structureScatter-shot boson sampling allows large numbers of photons to be generated in a state useful for boson sampling algorithms, in a highly efficient fashion with respect to resources. We will apply this novel photon source to sample from graph structures implementable with photonic quantum walks. We will use complex circuitry to implement graphs of increasing levels of connectivity.
Final international workshop on photonics quantum simulationA final international workshop on photonics quantum simulation to show case the QUCHIP achievements, disseminate the project results, and discuss these results in the wider community.
Scatter-shot Boson Sampling with simple structure"The achievement of scatter-shot Boson Sampling will be carried out by several partners. The unitary evolution will be implemented via an integrated circuit while the generation of heralded single photon states and single photon detection will be achieved via bulk optics techniques. The ""simple"" implementation should be carried out with 3 photons, 10-15 modes, and 4-8 two-photon pair sources."
Multi-walker on multi-dimensionObserving a quantum walk of multiple indistinguishable particles on a multidimensional lattice graph constitutes a significant advance for experimental quantum information. We are developing guided-wave approaches for walks that use time-, space-, and polarization-encoding; each of these will contribute to achieving increasingly complex quantum walk systems. We will report on the design and operation of a system for studying the first multidimensional, multi-walker quantum walks.
Final reportFinal report for the entire project consisting in a technical and a financial final reports. The technical report will include a summary of scientific and technological results, conclusions and socio-economic impact of the project; the financial report will include a summary of the financial statements and a certificate on the financial statements.
Pairs of orthogonally polarized photons will be generated in two different periodically poled waveguides on LiNbO3 PPLN wafers and subsequently split on an integrated polarizing beam splitter PBS such that the photons of each pair emege on two different spatial modes with orthogonal polarizations The superposition of the states generated by the two different sources results in the desired entangled state In this scheme the quality of the entanglement depends on both the homogeneity of the two poled waveguides and the splitting ratio of the integrated polarizing beam splitter The combination of these characteristics with the high brightness of our PPLN waveguides which reaches values of about 15 photons per microW at 1 MHz repetition rate will result in a source of polarization entangled states whose brightness is 2 orders of magnitude higher than the available bulk sources
Demonstration of noise assisted transport in a realistic waveguide arrayWaveguide arrays have sufficient flexibility to allow for the investigation of the effects of different forms of noise and disorder on excitation transfer in different types of graphs. The interplay between the underlying coherent dynamics, which typically leads to the enhancement or the suppression of certain transport paths, and the incoherent phenomena due to environmental noise is thought to be crucial for the resilient performance of biomolecular networks in charge of distributing energy and transporting charge across mesoscopic regions in both plants and bacteria. It may also play a role in randomized algorithms in quantum computer science. We will investigate the impact of different forms of network structures and trapping to elucidate the conditions required for optimal transport performance for settings ranging from biology to random walks on graphs.
Complex 3D integrated structureReconfigurable devices will be fabricated by femtosecond laser writing with the addition of thermal shifters on the glass surface. In particular, a three-arm interferometer with variable phases in two of the three arms will be demonstrated. The capability of producing waveguides at variable depths into the glass will be exploited to reduce the cross-talk of the thermal shifters on different waveguides.
A video showing QUCHIP highlights will be developed, including a brief information about the project (name, funding scheme, participating institutions, project objectives, main results of the project, acknowledgment to EU, etc). The video will be targeted to a technical and non-technical audience and is intended for a large distribution (YouTube).
Popularization of scientific resultsThe impact of the achievements will be measured through publications in peer-reviewed high-quality journals such as Nature, Science, Physical Review Letters, New Journal of Physics and Physical Review. For outstanding research highlights, the press offices of the participating institutions will issue press releases and also liaise with the national media as well as YouTube and Wikipedia contributions. All participants will assist in preparing these press releases, i.e. writing of comprehensive and popular summaries of the research results. In addition our on-going results will be disseminated at national workshops and conferences and at international workshops and larger overseas conferences.
Logo and webA QUCHIP logo will be designed to be graphically appealing and to include a reference to the project topicA QUCHIP website will be developed both as a mean of public dissemination of the project results and an effective way to share information among the project partners It includes public pages with information on the project and its results and a restricted access area for internal information exchanges Il will be regularly updated with project results by the QUCHIP project manager
Wikipedia webpages, leaflets on goalsNew wikipedia webpages developed by the project beneficiaries The pages will be then regularly updated with the project resultsLeaflets andor brochures on the project targets and results for distribution at events and posted on project website
Publications
Auteurs:
Nicolò Spagnolo, Enrico Maiorino, Chiara Vitelli, Marco Bentivegna, Andrea Crespi, Roberta Ramponi, Paolo Mataloni, Roberto Osellame, Fabio Sciarrino
Publié dans:
Scientific Reports, Numéro 7/1, 2017, ISSN 2045-2322
Éditeur:
Nature Publishing Group
DOI:
10.1038/s41598-017-14680-7
Auteurs:
Antonietta De Sio, Filippo Troiani, Margherita Maiuri, Julien Réhault, Ephraim Sommer, James Lim, Susana F. Huelga, Martin B. Plenio, Carlo Andrea Rozzi, Giulio Cerullo, Elisa Molinari, Christoph Lienau
Publié dans:
Nature Communications, Numéro 7, 2016, Page(s) 13742, ISSN 2041-1723
Éditeur:
Nature Publishing Group
DOI:
10.1038/ncomms13742
Auteurs:
Ioannis Pitsios, Leonardo Banchi, Adil S. Rab, Marco Bentivegna, Debora Caprara, Andrea Crespi, Nicolò Spagnolo, Sougato Bose, Paolo Mataloni, Roberto Osellame, Fabio Sciarrino
Publié dans:
Nature Communications, Numéro 8/1, 2017, Page(s) 1-8, ISSN 2041-1723
Éditeur:
Nature Publishing Group
DOI:
10.1038/s41467-017-01589-y
Auteurs:
Rafael Chaves, Gonzalo Carvacho, Iris Agresti, Valerio Di Giulio, Leandro Aolita, Sandro Giacomini, Fabio Sciarrino
Publié dans:
Nature Physics, 2017, ISSN 1745-2473
Éditeur:
Nature Publishing Group
DOI:
10.1038/s41567-017-0008-5
Auteurs:
Mario A. Ciampini, Caterina Vigliar, Valeria Cimini, Stefano Paesani, Fabio Sciarrino, Andrea Crespi, Giacomo Corrielli, Roberto Osellame, Paolo Mataloni, Mauro Paternostro, Marco Barbieri
Publié dans:
Scientific Reports, Numéro 7/1, 2017, ISSN 2045-2322
Éditeur:
Nature Publishing Group
DOI:
10.1038/s41598-017-17457-0
Auteurs:
J Boutari, A Feizpour, S Barz, C Di Franco, M S Kim, W S Kolthammer, I A Walmsley
Publié dans:
Journal of Optics, Numéro 18/9, 2016, Page(s) 094007, ISSN 2040-8978
Éditeur:
Institute of Physics Publishing
DOI:
10.1088/2040-8978/18/9/094007
Auteurs:
Taira Giordani, Fulvio Flamini, Matteo Pompili, Niko Viggianiello, Nicolò Spagnolo, Andrea Crespi, Roberto Osellame, Nathan Wiebe, Mattia Walschaers, Andreas Buchleitner, Fabio Sciarrino
Publié dans:
Nature Photonics, 2018, ISSN 1749-4885
Éditeur:
Nature Pub. Group
DOI:
10.1038/s41566-018-0097-4
Auteurs:
Niko Viggianiello, Fulvio Flamini, Luca Innocenti, Daniele Cozzolino, Marco Bentivegna, Nicolò Spagnolo, Andrea Crespi, Daniel J. Brod, Ernesto F. Galvao, Roberto Osellame, Fabio Sciarrino
Publié dans:
New Journal of Physics, 2018, ISSN 1367-2630
Éditeur:
Institute of Physics Publishing
DOI:
10.1088/1367-2630/aaad92
Auteurs:
Fulvio FLAMINI, Niko VIGGIANIELLO, Marco BENTIVEGNA, Nicolo SPAGNOLO, Paolo MATALONI, Andrea CRESPI, Roberta RAMPONI, Roberto OSELLAME, Fabio SCIARRINO
Publié dans:
Interdisciplinary Information Sciences, Numéro 23/1, 2017, Page(s) 115-118, ISSN 1340-9050
Éditeur:
The Editorial Committee of the Interdisciplinary Information Sciences
DOI:
10.4036/iis.2017.A.14
Auteurs:
William R. Clements, Peter C. Humphreys, Benjamin J. Metcalf, W. Steven Kolthammer, Ian A. Walsmley
Publié dans:
Optica, Numéro 3/12, 2016, Page(s) 1460, ISSN 2334-2536
Éditeur:
The Optical Society (OSA)
DOI:
10.1364/OPTICA.3.001460
Auteurs:
Chiara Greganti, Peter Schiansky, Irati Alonso Calafell, Lorenzo M. Procopio, Lee A. Rozema, Philip Walther
Publié dans:
Optics Express, Numéro 26/3, 2018, Page(s) 3286, ISSN 1094-4087
Éditeur:
Optical Society of America
DOI:
10.1364/OE.26.003286
Auteurs:
Nicholas J Russell, Levon Chakhmakhchyan, Jeremy L O’Brien, Anthony Laing
Publié dans:
New Journal of Physics, Numéro 19/3, 2017, Page(s) 033007, ISSN 1367-2630
Éditeur:
Institute of Physics Publishing
DOI:
10.1088/1367-2630/aa60ed
Auteurs:
L Chakhmakhchyan, T N Teles, S Ruffo
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Journal of Statistical Mechanics: Theory and Experiment, Numéro 2017/6, 2017, Page(s) 063204, ISSN 1742-5468
Éditeur:
Institute of Physics
DOI:
10.1088/1742-5468/aa73f1
Auteurs:
L. Chakhmakhchyan, N. J. Cerf
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Physical Review A, Numéro 96/3, 2017, ISSN 2469-9926
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevA.96.032326
Auteurs:
Alexander Streltsov, Gerardo Adesso, Martin B. Plenio
Publié dans:
Reviews of Modern Physics, Numéro 89/4, 2017, ISSN 0034-6861
Éditeur:
American Physical Society
DOI:
10.1103/RevModPhys.89.041003
Auteurs:
Myung-Joong Hwang, Peter Rabl, Martin B. Plenio
Publié dans:
Physical Review A, Numéro 97/1, 2018, ISSN 2469-9926
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevA.97.013825
Auteurs:
Alex Neville, Chris Sparrow, Raphaël Clifford, Eric Johnston, Patrick M. Birchall, Ashley Montanaro, Anthony Laing
Publié dans:
Nature Physics, Numéro 13/12, 2017, Page(s) 1153-1157, ISSN 1745-2473
Éditeur:
Nature Publishing Group
DOI:
10.1038/nphys4270
Auteurs:
Robert Cernansky, Francesco Martini, Alberto Politi
Publié dans:
Optics Letters, Numéro 43/4, 2018, Page(s) 855, ISSN 0146-9592
Éditeur:
Optical Society of America
DOI:
10.1364/OL.43.000855
Auteurs:
William R. Clements, Jelmer J. Renema, Y. Henry Wen, Helen M. Chrzanowski, W. Steven Kolthammer, Ian A. Walmsley
Publié dans:
Physical Review A, Numéro 96/4, 2017, ISSN 2469-9926
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevA.96.043850
Auteurs:
Simone Atzeni, Adil S. Rab, Giacomo Corrielli, Emanuele Polino, Mauro Valeri, Paolo Mataloni, Nicolò Spagnolo, Andrea Crespi, Fabio Sciarrino, Roberto Osellame
Publié dans:
Optica, Numéro 5/3, 2018, Page(s) 311, ISSN 2334-2536
Éditeur:
The Optical Society
DOI:
10.1364/OPTICA.5.000311
Auteurs:
Sonja Barkhofen, Thomas Nitsche, Fabian Elster, Lennart Lorz, Aurél Gábris, Igor Jex, Christine Silberhorn
Publié dans:
Physical Review A, Numéro 96/3, 2017, ISSN 2469-9926
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevA.96.033846
Auteurs:
Jonas Zeuner, Aditya N. Sharma, Max Tillmann, René Heilmann, Markus Gräfe, Amir Moqanaki, Alexander Szameit, Philip Walther
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npj Quantum Information, Numéro 4/1, 2018, ISSN 2056-6387
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Macmillan Publishers Limited
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10.1038/s41534-018-0068-0
Auteurs:
S. Paesani, A. A. Gentile, R. Santagati, J. Wang, N. Wiebe, D. P. Tew, J. L. O’Brien, M. G. Thompson
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Physical Review Letters, Numéro 118/10, 2017, ISSN 0031-9007
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevLett.118.100503
Auteurs:
Craig S. Hamilton, Regina Kruse, Linda Sansoni, Sonja Barkhofen, Christine Silberhorn, Igor Jex
Publié dans:
Physical Review Letters, Numéro 119/17, 2017, ISSN 0031-9007
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevLett.119.170501
Auteurs:
Jianwei Wang, Stefano Paesani, Raffaele Santagati, Sebastian Knauer, Antonio A. Gentile, Nathan Wiebe, Maurangelo Petruzzella, Jeremy L. O’Brien, John G. Rarity, Anthony Laing, Mark G. Thompson
Publié dans:
Nature Physics, Numéro 13/6, 2017, Page(s) 551-555, ISSN 1745-2473
Éditeur:
Nature Publishing Group
DOI:
10.1038/nphys4074
Auteurs:
L. Chakhmakhchyan, N. J. Cerf, R. Garcia-Patron
Publié dans:
Physical Review A, Numéro 96/2, 2017, ISSN 2469-9926
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevA.96.022329
Auteurs:
I. Dhand, M. Engelkemeier, L. Sansoni, S. Barkhofen, C. Silberhorn, M. B. Plenio
Publié dans:
Physical Review Letters, Numéro 120/13, 2018, ISSN 0031-9007
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevLett.120.130501
Auteurs:
Raffaele Santagati, Jianwei Wang, Antonio A. Gentile, Stefano Paesani, Nathan Wiebe, Jarrod R. McClean, Sam Morley-Short, Peter J. Shadbolt, Damien Bonneau, Joshua W. Silverstone, David P. Tew, Xiaoqi Zhou, Jeremy L. O’Brien, Mark G. Thompson
Publié dans:
Science Advances, Numéro 4/1, 2018, Page(s) eaap9646, ISSN 2375-2548
Éditeur:
American Association for the Advancement of Science
DOI:
10.1126/sciadv.aap9646
Auteurs:
Fabian Laudenbach, Rui-Bo Jin, Chiara Greganti, Michael Hentschel, Philip Walther, Hannes Hübel
Publié dans:
Physical Review Applied, Numéro 8/2, 2017, ISSN 2331-7019
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevApplied.8.024035
Auteurs:
Andrea Crespi, Marco Bentivegna, Ioannis Pitsios, Davide Rusca, Davide Poderini, Gonzalo Carvacho, Vincenzo D’Ambrosio, Adán Cabello, Fabio Sciarrino, Roberto Osellame
Publié dans:
ACS Photonics, Numéro 4/11, 2017, Page(s) 2807-2812, ISSN 2330-4022
Éditeur:
American Chemical Society
DOI:
10.1021/acsphotonics.7b00793
Auteurs:
D. Tamascelli, A. Smirne, S. F. Huelga, M. B. Plenio
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Physical Review Letters, Numéro 120/3, 2018, ISSN 0031-9007
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevLett.120.030402
Auteurs:
René Heilmann, Chiara Greganti, Markus Gräfe, Stefan Nolte, Philip Walther, Alexander Szameit
Publié dans:
Applied Optics, Numéro 57/3, 2018, Page(s) 377, ISSN 1559-128X
Éditeur:
The Optical Society
DOI:
10.1364/AO.57.000377
Auteurs:
R Santagati, J W Silverstone, M J Strain, M Sorel, S Miki, T Yamashita, M Fujiwara, M Sasaki, H Terai, M G Tanner, C M Natarajan, R H Hadfield, J L O’Brien, M G Thompson
Publié dans:
Journal of Optics, Numéro 19/11, 2017, Page(s) 114006, ISSN 2040-8978
Éditeur:
Institute of Physics Publishing
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10.1088/2040-8986/aa8d56
Auteurs:
F. Mascherpa, A. Smirne, S. F. Huelga, M. B. Plenio
Publié dans:
Physical Review Letters, Numéro 118/10, 2017, ISSN 0031-9007
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevLett.118.100401
Auteurs:
T. Theurer, N. Killoran, D. Egloff, M. B. Plenio
Publié dans:
Physical Review Letters, Numéro 119/23, 2017, ISSN 0031-9007
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevLett.119.230401
Auteurs:
Hoi-Kwan Lau, Martin B. Plenio
Publié dans:
Physical Review A, Numéro 95/2, 2017, ISSN 2469-9926
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevA.95.022303
Auteurs:
Luca Ferialdi, Andrea Smirne
Publié dans:
Physical Review A, Numéro 96/1, 2017, ISSN 2469-9926
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevA.96.012109
Auteurs:
James Lim, David J. Ing, Joachim Rosskopf, Jan Jeske, Jared H. Cole, Susana F. Huelga, Martin B. Plenio
Publié dans:
The Journal of Chemical Physics, Numéro 146/2, 2017, Page(s) 024109, ISSN 0021-9606
Éditeur:
American Institute of Physics
DOI:
10.1063/1.4973975
Auteurs:
Matteo Caiaffa, Andrea Smirne, Angelo Bassi
Publié dans:
Physical Review A, Numéro 95/6, 2017, ISSN 2469-9926
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevA.95.062101
Auteurs:
Ioannis Pitsios, Farid Samara, Giacomo Corrielli, Andrea Crespi, Roberto Osellame
Publié dans:
Scientific Reports, Numéro 7/1, 2017, ISSN 2045-2322
Éditeur:
Nature Publishing Group
DOI:
10.1038/s41598-017-09462-0
Auteurs:
J M Matera, D Egloff, N Killoran, M B Plenio
Publié dans:
Quantum Science and Technology, Numéro 1/1, 2016, Page(s) 01LT01, ISSN 2058-9565
Éditeur:
IOP Publishing
DOI:
10.1088/2058-9565/1/1/01LT01
Auteurs:
Giulia Rubino, Lee A. Rozema, Adrien Feix, Mateus Araújo, Jonas M. Zeuner, Lorenzo M. Procopio, Časlav Brukner, Philip Walther
Publié dans:
Science Advances, Numéro 3/3, 2017, Page(s) e1602589, ISSN 2375-2548
Éditeur:
American Association for the Advancement of Science
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10.1126/sciadv.1602589
Auteurs:
Andrea Crespi, Roberto Osellame, Roberta Ramponi, Marco Bentivegna, Fulvio Flamini, Nicolò Spagnolo, Niko Viggianiello, Luca Innocenti, Paolo Mataloni, Fabio Sciarrino
Publié dans:
Nature Communications, Numéro 7, 2016, Page(s) 10469, ISSN 2041-1723
Éditeur:
Nature Publishing Group
DOI:
10.1038/ncomms10469
Auteurs:
Sonja Barkhofen, Tim J. Bartley, Linda Sansoni, Regina Kruse, Craig S. Hamilton, Igor Jex, Christine Silberhorn
Publié dans:
Physical Review Letters, Numéro 118/2, 2017, ISSN 0031-9007
Éditeur:
American Physical Society
DOI:
10.1103/PhysRevLett.118.020502
Auteurs:
Fulvio Flamini, Nicolò Spagnolo, Niko Viggianiello, Andrea Crespi, Roberto Osellame, Fabio Sciarrino
Publié dans:
Scientific Reports, Numéro 7/1, 2017, ISSN 2045-2322
Éditeur:
Nature Publishing Group
DOI:
10.1038/s41598-017-15174-2
Auteurs:
M. Bentivegna, N. Spagnolo, C. Vitelli, F. Flamini, N. Viggianiello, L. Latmiral, P. Mataloni, D. J. Brod, E. F. Galvao, A. Crespi, R. Ramponi, R. Osellame, F. Sciarrino
Publié dans:
Science Advances, Numéro 1/3, 2015, Page(s) e1400255-e1400255, ISSN 2375-2548
Éditeur:
American Association for the Advancement of Science
DOI:
10.1126/sciadv.1400255
Auteurs:
Justin B. Spring, Paolo L. Mennea, Benjamin J. Metcalf, Peter C. Humphreys, James C. Gates, Helen L. Rogers, Christoph Söller, Brian J. Smith, W. Steven Kolthammer, Peter G. R. Smith, Ian A. Walmsley
Publié dans:
Optica, Numéro 4/1, 2017, Page(s) 90, ISSN 2334-2536
Éditeur:
The Optical Society
DOI:
10.1364/OPTICA.4.000090
Auteurs:
Linda Sansoni, Kai Hong Luo, Christof Eigner, Raimund Ricken, Viktor Quiring, Harald Herrmann, Christine Silberhorn
Publié dans:
npj Quantum Information, Numéro 3/1, 2017, ISSN 2056-6387
Éditeur:
Macmillan Publishers Limited, part of Springer Nature
DOI:
10.1038/s41534-016-0005-z
Auteurs:
Fabian Laudenbach, Sebastian Kalista, Michael Hentschel, Philip Walther, Hannes Hübel
Publié dans:
Scientific Reports, Numéro 7/1, 2017, ISSN 2045-2322
Éditeur:
Nature Publishing Group
DOI:
10.1038/s41598-017-07781-w
Auteurs:
J. Wang, S. Paesani, Y. Ding, R. Santagati, P. Skrzypczyk, A. Salavrakos, J. Tura, R. Augusiak, L. Mančinska, D. Bacco, D. Bonneau, J.W. Silverstone, Q. Gong, A. Acín, K. Rottwitt, L.K. Oxenløwe, J.L. O'Brien, A. Laing, M.G. Thompson
Publié dans:
Science, Numéro 2018 Mar 8. pii: eaar7053, 2018, ISSN 1095-9203
Éditeur:
American Association for the Advancement of Science
DOI:
10.1126/science.aar7053
Auteurs:
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Publié dans:
New Journal of Physics, Numéro 20, 033005, 2018, ISSN 1367-2630
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New Journal of Physics, 2018, ISSN 1367-2630
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Physical Review Letters, Numéro 115/11, 2015, ISSN 0031-9007
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American Physical Society
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American Physical Society
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Physical Review A, Numéro 91/2, 2015, ISSN 1094-1622
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American Physical Society
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