Linear optical quantum computing with photonic qubits. Addison Wesley Longman Publishing Co., Inc., Redwood City, CA, USA, 1997. The Art of Computer Programming, Volume 1 (3rd Ed.): Fundamental Algorithms. ![]() Entanglement by a beam splitter: Nonclassicality as a prerequisite for entanglement. Ultra-low loss waveguide platform and its integration with silicon photonics. Time-bin-encoded boson sampling with a single-photon device. Large-scale quantum photonic circuits in silicon. Wiley-VCH Verlag, Weinheim, Germany, 10th edition, 2007. Quantum Theory of Optical Coherence: Selected Papers and Lectures. A solution of gaussian optimizer conjecture for quantum channels. A scheme for efficient quantum computation with linear optics. Two-photon quantum walk in a multimode fiber. Society for Industrial and Applied Mathematics. In Proceedings of the Twenty-Ninth Annual ACM-SIAM Symposium on Discrete Algorithms, SODA '18, pages 146–155, Philadelphia, PA, USA, 2018. The classical complexity of boson sampling. Optimal design for universal multiport interferometers. Boson sampling with gaussian measurements. Quantum-mechanical lossless beam splitter: SU(2) symmetry and photon statistics. On quantum field theory i: explicit solution of dyson's equation in electrodynamics without use of feynman graphs. Photonic boson sampling in a tunable circuit. ![]() Architectures for quantum simulation showing a quantum speedup. Mathematical Proceedings of the Cambridge Philosophical Society, 95: 473–480, 1984. Geometry & Topology Monographs, 18: 1, 2012. The computational complexity of linear optics. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 467: 3393–3405, 2011. A linear-optical proof that the permanent is #P-hard. In the recent years few proposals have emerged as candidates to demonstrate the power of quantum computing. ![]() Such a demonstration would take the form of a competition, where the quantum and classical computers race to solve a specific computational problem. Demonstrating the computational advantage of a quantum over a digital computation is considered the next and most important milestone in the field of quantum computation.
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