Add to ORKGWe report testing of the new absolute method of photodetector calibration based on the difference-signal measurement for two-mode squeezed vacuum by comparison with the traditional absolute method based on coincidence counting. Using low-gain parametric downconversion, we have measured the quantum efficiency of a counting detector by both methods. The difference-signal method was adapted for the counting detectors by taking into account the dead-time effect. (c) 2011 Optical Society of Americ
In this thesis, we demonstrate an array of photodetection theory and techniques bridging the tradit...
Coincidence counting is a necessary ingredient for quantum optics experiments at the undergraduate l...
Squeezed states of light belong to the most prominent nonclassical resources. They have compelling a...
We report testing of the new absolute method of photodetector calibration based on the difference-si...
We realize and test in experiment a method recently proposed for measuring absolute quantum efficien...
Prompted by the need for various studies ranging from quantum information to foundations of quantum ...
Well characterized photon number resolving detectors are a requirement for many applications rangin...
The aim of this review paper is to enlighten some recent progresses in quantum optical metrology in ...
Abstract—Correlated photons can be used to measure the quantum efficiency of photon counting photode...
We evaluate photodetectors for use in a Compton Coincidence apparatus designed for measuring scintil...
The paper considers a block diagram of a photodetection system based on a new version of the four-ch...
The usual way of calibrating detectors or devices is to treat them as black boxes. We measure the re...
We examine some aspects of the continuous photodetection model for photocounting processes in caviti...
A method for absolute calibration of a photon-number resolving detector producing analog signals as ...
The standard theory of photodetection is applied to the case of pulses of non-classical light which ...
In this thesis, we demonstrate an array of photodetection theory and techniques bridging the tradit...
Coincidence counting is a necessary ingredient for quantum optics experiments at the undergraduate l...
Squeezed states of light belong to the most prominent nonclassical resources. They have compelling a...
We report testing of the new absolute method of photodetector calibration based on the difference-si...
We realize and test in experiment a method recently proposed for measuring absolute quantum efficien...
Prompted by the need for various studies ranging from quantum information to foundations of quantum ...
Well characterized photon number resolving detectors are a requirement for many applications rangin...
The aim of this review paper is to enlighten some recent progresses in quantum optical metrology in ...
Abstract—Correlated photons can be used to measure the quantum efficiency of photon counting photode...
We evaluate photodetectors for use in a Compton Coincidence apparatus designed for measuring scintil...
The paper considers a block diagram of a photodetection system based on a new version of the four-ch...
The usual way of calibrating detectors or devices is to treat them as black boxes. We measure the re...
We examine some aspects of the continuous photodetection model for photocounting processes in caviti...
A method for absolute calibration of a photon-number resolving detector producing analog signals as ...
The standard theory of photodetection is applied to the case of pulses of non-classical light which ...
In this thesis, we demonstrate an array of photodetection theory and techniques bridging the tradit...
Coincidence counting is a necessary ingredient for quantum optics experiments at the undergraduate l...
Squeezed states of light belong to the most prominent nonclassical resources. They have compelling a...