Derives a boson-fermion complementarity identity in linear interferometers that implies a previously unknown relation between |perm(A)|^2 and |det(A)|^2 for complex matrices, extending Muir's 19th-century identity.
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High-dimensional temporal modes enable persistent high photon-efficiency quantum communication channels in turbulent maritime environments by identifying parameter regimes for high-fidelity transmission.
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Boson-fermion complementarity in a linear interferometer: An identity relating the determinant and permanent of a matrix
Derives a boson-fermion complementarity identity in linear interferometers that implies a previously unknown relation between |perm(A)|^2 and |det(A)|^2 for complex matrices, extending Muir's 19th-century identity.
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High-dimensional temporal mode propagation in a turbulent environment
High-dimensional temporal modes enable persistent high photon-efficiency quantum communication channels in turbulent maritime environments by identifying parameter regimes for high-fidelity transmission.