We present an algorithm for calculation of the Gaussian classical capacity of a quantum bosonic memory channel with additive Gaussian noise. The algorithm, restricted to Gaussian input states, is applicable to all channels with noise correlations obeying certain conditions and works in the full input energy domain, beyond previous treatments of this problem. As an illustration, we study the optimal input states and capacity of a quantum memory channel with Gauss-Markov noise [J. Sch¨afer, Phys. Rev. A 80, 062313 (2009)]. We evaluate the enhancement of the transmission rate when using these optimal entangled input states by comparison with a product coherent-state encoding and find out that such a simple coherent-state encoding achieves not ...
We investigate the capacity of bosonic quantum channels for the transmission of quantum information....
We study the information transmission through a quantum channel, defined over a continuous alphabet ...
In this paper we study quantum communication channels with correlated noise effects, i.e., quantum c...
We address the classical capacity of a quantum bosonic memory channel with additive noise, subject t...
In this thesis we study the information transmission through Gaussian quantum channels. Gaussian qua...
We seek for a realistic implementation of multimode Gaussian entangled states that can realize the o...
The communication capacity of Gaussian bosonic channels with memory has recently attracted much inte...
We provide a model to study memory effects in quantum Gaussian channels with additive classical nois...
Optimization methods aimed at estimating the capacities of a general Gaussian channel are developed....
The bosonic quantum channels have recently attracted a growing interest, motivated by the hope that ...
We study the transmission of classical information via optical Gaussian channels with a classical ad...
The classical capacity of quantum channels is the tight upper bound for the transmission rate of cla...
We introduce a general model describing correlated noise effects in quantum optical communication vi...
PACS 03.67.Hk, 89.70.Kn The classical capacity of quantum channels is the tight upper bound for the ...
The long-standing conjectures of the optimality of Gaussian inputs for Gaussian channel and Gaussian...
We investigate the capacity of bosonic quantum channels for the transmission of quantum information....
We study the information transmission through a quantum channel, defined over a continuous alphabet ...
In this paper we study quantum communication channels with correlated noise effects, i.e., quantum c...
We address the classical capacity of a quantum bosonic memory channel with additive noise, subject t...
In this thesis we study the information transmission through Gaussian quantum channels. Gaussian qua...
We seek for a realistic implementation of multimode Gaussian entangled states that can realize the o...
The communication capacity of Gaussian bosonic channels with memory has recently attracted much inte...
We provide a model to study memory effects in quantum Gaussian channels with additive classical nois...
Optimization methods aimed at estimating the capacities of a general Gaussian channel are developed....
The bosonic quantum channels have recently attracted a growing interest, motivated by the hope that ...
We study the transmission of classical information via optical Gaussian channels with a classical ad...
The classical capacity of quantum channels is the tight upper bound for the transmission rate of cla...
We introduce a general model describing correlated noise effects in quantum optical communication vi...
PACS 03.67.Hk, 89.70.Kn The classical capacity of quantum channels is the tight upper bound for the ...
The long-standing conjectures of the optimality of Gaussian inputs for Gaussian channel and Gaussian...
We investigate the capacity of bosonic quantum channels for the transmission of quantum information....
We study the information transmission through a quantum channel, defined over a continuous alphabet ...
In this paper we study quantum communication channels with correlated noise effects, i.e., quantum c...