Universal linear optics
Jacques Carolan,Chris Harrold,Chris Sparrow,Chris Sparrow,Enrique Martin-Lopez,Nicholas Russell,Joshua W. Silverstone,Peter Shadbolt,Nobuyuki Matsuda,Manabu Oguma,Mikitaka Itoh,Graham D. Marshall,Mark G. Thompson,Jonathan C. F. Matthews,Toshikazu Hashimoto,Jeremy L. O'Brien,Anthony Laing +16 more
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In this paper, a sixmode universal system consisting of a cascade of 15 Mach-Zehnder interferometers with 30 thermo-optic phase shifters integrated into a single photonic chip was demonstrated.Abstract:
Linear optics underpins fundamental tests of quantum mechanics and quantum technologies. We demonstrate a single reprogrammable optical circuit that is sufficient to implement all possible linear optical protocols up to the size of that circuit. Our six-mode universal system consists of a cascade of 15 Mach-Zehnder interferometers with 30 thermo-optic phase shifters integrated into a single photonic chip that is electrically and optically interfaced for arbitrary setting of all phase shifters, input of up to six photons, and their measurement with a 12-single-photon detector system. We programmed this system to implement heralded quantum logic and entangling gates, boson sampling with verification tests, and six-dimensional complex Hadamards. We implemented 100 Haar random unitaries with an average fidelity of 0.999 ± 0.001. Our system can be rapidly reprogrammed to implement these and any other linear optical protocol, pointing the way to applications across fundamental science and quantum technologies.read more
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Random bosonic states for robust quantum metrology
Michał Oszmaniec,Remigiusz Augusiak,Remigiusz Augusiak,Christian Gogolin,Christian Gogolin,Jan Kołodyński,Antonio Acín,Maciej Lewenstein +7 more
TL;DR: In this article, it was shown that random pure states drawn from the Hilbert space of distinguishable particles typically do not lead to super-classical scaling of precision even when allowing for local unitary optimization.
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A 9.2-GHz clock transition in a Lu(II) molecular spin qubit arising from a 3,467-MHz hyperfine interaction
Krishnendu Kundu,Jessica R. K. White,Samuel A. Moehring,Jason M. Yu,Joseph W. Ziller,Filipp Furche,William E. Evans,Stephen Hill +7 more
TL;DR: In this article , the authors reported the observation of one of the largest hyperfine interactions for a molecular system, Aiso = 3,467 ± 50 MHz, as well as a very large associated clock transition.
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Finite-key security analysis for multilevel quantum key distribution
Kamil Bradler,Mohammad Mirhosseini,Robert Fickler,Anne Broadbent,Robert W. Boyd,Robert W. Boyd +5 more
TL;DR: In this paper, a detailed security analysis of a d-dimensional quantum key distribution protocol based on two and three mutually unbiased bases (MUBs) both in an asymptotic and finite key length scenario is presented.
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Controlling phonons and photons at the wavelength scale: integrated photonics meets integrated phononics: publisher's note
TL;DR: This paper made a typographical correction to the funding section of Optica 6, 213 (2019) and corrected the name of a funder, which was incorrectly stated in the article.
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Cyclic transformation of orbital angular momentum modes
TL;DR: In this paper, a cyclic transformation in the high-dimensional space of photonic orbital angular momentum (OAM) was shown to be useful for quantum cryptography with QuDits.
References
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Book
Quantum Computation and Quantum Information
TL;DR: In this article, the quantum Fourier transform and its application in quantum information theory is discussed, and distance measures for quantum information are defined. And quantum error-correction and entropy and information are discussed.
Quantum Computation and Quantum Information
TL;DR: This chapter discusses quantum information theory, public-key cryptography and the RSA cryptosystem, and the proof of Lieb's theorem.
Journal ArticleDOI
A scheme for efficient quantum computation with linear optics.
TL;DR: It is shown that efficient quantum computation is possible using only beam splitters, phase shifters, single photon sources and photo-detectors and are robust against errors from photon loss and detector inefficiency.
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Measurement of subpicosecond time intervals between two photons by interference.
TL;DR: A fourth-order interference technique has been used to measure the time intervals between two photons, and by implication the length of the photon wave packet, produced in the process of parametric down-conversion.