First on-chip quantum memory in erbium-doped thin-film lithium niobate stores telecom time-bin qubits for 400 ns with 1.95% efficiency and 96.8% fidelity, exceeding the classical limit.
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Experimental demonstration of a self-configuring integrated photonic processor that sorts orthogonal input beams from random speckle and performs arbitrary manipulations over spatial and polarization dimensions.
citing papers explorer
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Storage of telecom-band time-bin qubits in thin-film lithium niobate
First on-chip quantum memory in erbium-doped thin-film lithium niobate stores telecom time-bin qubits for 400 ns with 1.95% efficiency and 96.8% fidelity, exceeding the classical limit.
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Self-Configuring Universal Multichannel and Multidimensional Integrated Photonic Processing Engine
Experimental demonstration of a self-configuring integrated photonic processor that sorts orthogonal input beams from random speckle and performs arbitrary manipulations over spatial and polarization dimensions.