Add to ORKGWe propose a near-optimum receiver for the discrimination of binary phase-shift-keyed coherent states employing photon-number-resolving detectors. The receiver exploits a discrimination strategy based on both the so-called homodyne-like and the direct detection, thus resulting in a hybrid scheme. We analyse the performance and the robustness of the proposed scheme under realistic conditions, namely, in the presence of inefficient detection and dark counts. We show that the present hybrid setup is near-optimum and beats both the standard-quantum-limit and the performance of the Kennedy receiver.Comment: 20 pages, 6 figure
We address binary phase-shift-keyed communication channels based on Gaussian states and prove that s...
The production of conditional quantum states and quantum operations based on the result of measureme...
An important problem in quantum information theory is finding the best possible performance of the o...
We propose a hybrid feed-forward receiver (HFFRE) for the discrimination of binary phase-shift-keyed...
We investigate quantum measurement strategies capable of discriminating two coherent states probabil...
The impossibility of perfectly discriminating non-orthogonal quantum states imposes far-reaching con...
An experimental demonstration of a quantum-optimal receiver for optical binary signals, developed as...
We propose a homodyne-like detection scheme involving photon-number-resolving detectors to discrimin...
Coherent states of the quantum electromagnetic field, the quantum description of ideal laser light, ...
We put forward a hybrid quantum key distribution protocol based on coherent states, Gaussian modulat...
The proposed quantum receiver in this innovation partitions each binary signal interval into two une...
We study the problem of designing optical receivers to discriminate between multiple coherent states...
Phase estimation represents a crucial challenge in many fields of Physics, ranging from Quantum Metr...
Contains reports on one research project.National Aeronautics and Space Administration (Grant NGL 22...
We propose a new receiver for M-ary orthogonal coherent-state signal. It is shown that the proposed ...
We address binary phase-shift-keyed communication channels based on Gaussian states and prove that s...
The production of conditional quantum states and quantum operations based on the result of measureme...
An important problem in quantum information theory is finding the best possible performance of the o...
We propose a hybrid feed-forward receiver (HFFRE) for the discrimination of binary phase-shift-keyed...
We investigate quantum measurement strategies capable of discriminating two coherent states probabil...
The impossibility of perfectly discriminating non-orthogonal quantum states imposes far-reaching con...
An experimental demonstration of a quantum-optimal receiver for optical binary signals, developed as...
We propose a homodyne-like detection scheme involving photon-number-resolving detectors to discrimin...
Coherent states of the quantum electromagnetic field, the quantum description of ideal laser light, ...
We put forward a hybrid quantum key distribution protocol based on coherent states, Gaussian modulat...
The proposed quantum receiver in this innovation partitions each binary signal interval into two une...
We study the problem of designing optical receivers to discriminate between multiple coherent states...
Phase estimation represents a crucial challenge in many fields of Physics, ranging from Quantum Metr...
Contains reports on one research project.National Aeronautics and Space Administration (Grant NGL 22...
We propose a new receiver for M-ary orthogonal coherent-state signal. It is shown that the proposed ...
We address binary phase-shift-keyed communication channels based on Gaussian states and prove that s...
The production of conditional quantum states and quantum operations based on the result of measureme...
An important problem in quantum information theory is finding the best possible performance of the o...