Add to ORKGAlthough the canonical phase of light, which is defined as the complement of photon number, has been described theoretically by a variety of distinct approaches, there have been no methods proposed for its measurement. Indeed doubts have been expressed about whether or not it is measurable. Here we show how it is possible, at least in principle, to perform a single-shot measurement of canonical phase using beam splitters, mirrors, phase shifters and photodetectors
Phase estimation represents a crucial challenge in many fields of Physics, ranging from Quantum Metr...
As the simplest phase estimation protocol, the inversion estimator has been widely adopted in the qu...
Photon counting induces an effective nonlinear optical phase shift on certain states derived by line...
Measurements on states of light underpins the entire fields of classical and quantum optics. Without...
Quantitative characterization of the spatial structure of single photons is essential for free-space...
The relative phase between spatially separated component waves of a single photon can be measured by...
Abstract. We present a first feasible scheme for detecting the phase of a single mode of radiation w...
The implementation of optical quantum technologies requires precise and complete characterisation t...
The phase of a single-mode field can be measured in a single-shot measurement by interfering the fie...
Abstract. The results of experiments designed to measure the operational phase cosine and sine varia...
It is well known that the result of any phase measurement on an optical mode made using linear optic...
Multiphoton entangled states such as “N00N states” have attracted a lot of attention because of thei...
The standard single-shot estimate for the phase of a single-mode pulse of light is the argument of t...
A two-step detection strategy is suggested for the precise measurement of the optical phase shift. I...
We study various ways of characterizing the quantum optical number and phase as complementary observ...
Phase estimation represents a crucial challenge in many fields of Physics, ranging from Quantum Metr...
As the simplest phase estimation protocol, the inversion estimator has been widely adopted in the qu...
Photon counting induces an effective nonlinear optical phase shift on certain states derived by line...
Measurements on states of light underpins the entire fields of classical and quantum optics. Without...
Quantitative characterization of the spatial structure of single photons is essential for free-space...
The relative phase between spatially separated component waves of a single photon can be measured by...
Abstract. We present a first feasible scheme for detecting the phase of a single mode of radiation w...
The implementation of optical quantum technologies requires precise and complete characterisation t...
The phase of a single-mode field can be measured in a single-shot measurement by interfering the fie...
Abstract. The results of experiments designed to measure the operational phase cosine and sine varia...
It is well known that the result of any phase measurement on an optical mode made using linear optic...
Multiphoton entangled states such as “N00N states” have attracted a lot of attention because of thei...
The standard single-shot estimate for the phase of a single-mode pulse of light is the argument of t...
A two-step detection strategy is suggested for the precise measurement of the optical phase shift. I...
We study various ways of characterizing the quantum optical number and phase as complementary observ...
Phase estimation represents a crucial challenge in many fields of Physics, ranging from Quantum Metr...
As the simplest phase estimation protocol, the inversion estimator has been widely adopted in the qu...
Photon counting induces an effective nonlinear optical phase shift on certain states derived by line...