Add to ORKGThe continuum stares formalism is suitable for field quantization in optical fibre; however, they are harder to use than discrete states. On the other hand, a Hermitian phase operator can be defined only in a finite dimensional space. We approximated a coherent continuum state by a finite tensor product of coherent states, each one defined in a finite dimensional space. Using this, in the correct limit, we were able to obtain some statistical properties of the photon number and phase of the continuum coherent states from the probability density functions of the individual, finite dimensional, coherent states. Then, we performed a simulation of the BB84 protocol, using the continuum coherent stares, in a fibre interferometer commonly used in...
When comparing quantum states to each other, it is possible to obtain an unambiguous answer, indicat...
Starting from the extended Cahill-Glauber formalism for finite-dimensional spaces we derive two impo...
Quantum state preparation is important for quantum information processing. In particular, in optical...
We present the full characterization of phase-randomized or phase-averaged coherent states, a class ...
We investigate the infinite volume limit of quantized photon fields in multi-mode coherent states. W...
International audienceWe investigate the infinite volume limit of quantized photon fields in multimo...
Boson sampling is a specific quantum computation, which is likely hard to implement efficiently on a...
We experimentally investigate the non-Gaussian features of the phase-randomized coherent states, a c...
In this paper we explore the possibility of fundamental tests for coherent state optical quantum com...
Quantum key distribution protocols and the questions of their protection were studied. There were es...
Quantum interferences offer the potential for improving the effective resolution wavelength of many ...
This paper presents two methods for simulating the interference of bosonic Fock states through linea...
Quantum interferences offer the potential for improving the effective resolution wavelength of many ...
In the domain of quantum communication, one of the main challenges is the distribution of entangleme...
The dynamics of the coherent and squeezed states is described and differentiated by means of the pro...
When comparing quantum states to each other, it is possible to obtain an unambiguous answer, indicat...
Starting from the extended Cahill-Glauber formalism for finite-dimensional spaces we derive two impo...
Quantum state preparation is important for quantum information processing. In particular, in optical...
We present the full characterization of phase-randomized or phase-averaged coherent states, a class ...
We investigate the infinite volume limit of quantized photon fields in multi-mode coherent states. W...
International audienceWe investigate the infinite volume limit of quantized photon fields in multimo...
Boson sampling is a specific quantum computation, which is likely hard to implement efficiently on a...
We experimentally investigate the non-Gaussian features of the phase-randomized coherent states, a c...
In this paper we explore the possibility of fundamental tests for coherent state optical quantum com...
Quantum key distribution protocols and the questions of their protection were studied. There were es...
Quantum interferences offer the potential for improving the effective resolution wavelength of many ...
This paper presents two methods for simulating the interference of bosonic Fock states through linea...
Quantum interferences offer the potential for improving the effective resolution wavelength of many ...
In the domain of quantum communication, one of the main challenges is the distribution of entangleme...
The dynamics of the coherent and squeezed states is described and differentiated by means of the pro...
When comparing quantum states to each other, it is possible to obtain an unambiguous answer, indicat...
Starting from the extended Cahill-Glauber formalism for finite-dimensional spaces we derive two impo...
Quantum state preparation is important for quantum information processing. In particular, in optical...