arXiv:1605.02181v1 [quant
... Teleportation requires a connection between the sites: an entanglement channel and a classical channel in which some (surprisingly small) amount of information has to be transferred. Recent “counterfactual” protocol [2, 3] seems to achieve much more: the transfer of a quantum state from one site to ...
... Teleportation requires a connection between the sites: an entanglement channel and a classical channel in which some (surprisingly small) amount of information has to be transferred. Recent “counterfactual” protocol [2, 3] seems to achieve much more: the transfer of a quantum state from one site to ...
quantum teleportation
... Quantum teleportation can be considered as one of the most imaginative ways of transportation. The idea that quantum teleportation, sending information of an object, without sending the object itself (with a speed larger than light), might be applicable to human beings can clearly be considered as t ...
... Quantum teleportation can be considered as one of the most imaginative ways of transportation. The idea that quantum teleportation, sending information of an object, without sending the object itself (with a speed larger than light), might be applicable to human beings can clearly be considered as t ...
A class of quantum many-body states that can be efficiently simulated
... product states (MPS) [6] for 1D systems, tree tensor networks (TTN) [3] for systems with tree shape, and projected entangled-pair states (PEPS) [2] for 2D systems and beyond, the three structures differing in the graph that defines how the tensors are interconnected into a network: the graphs for MP ...
... product states (MPS) [6] for 1D systems, tree tensor networks (TTN) [3] for systems with tree shape, and projected entangled-pair states (PEPS) [2] for 2D systems and beyond, the three structures differing in the graph that defines how the tensors are interconnected into a network: the graphs for MP ...
Polarization control of single photon quantum
... be achieved. A promising approach to this purpose is based on the properties of an optical device, named “q-plate”, that has been recently introduced both in the classical [17] and in the quantum domains [18]. The main feature of the q-plate is its capability of coupling the spinorial (polarization) ...
... be achieved. A promising approach to this purpose is based on the properties of an optical device, named “q-plate”, that has been recently introduced both in the classical [17] and in the quantum domains [18]. The main feature of the q-plate is its capability of coupling the spinorial (polarization) ...
QUANTUM STATES, ENTANGLEMENT and CLOSED TIMELIKE
... QUANTUM STATES, ENTANGLEMENT and CLOSED TIMELIKE CURVES NATURE OF QUANTUM STATES WITH CTC ...
... QUANTUM STATES, ENTANGLEMENT and CLOSED TIMELIKE CURVES NATURE OF QUANTUM STATES WITH CTC ...
Guidance Applied to Quantum Operations in Josephson
... The coherent operation and control of quantum mechanical systems is typically controlled by the application of classical external bias fields. These fields are subject to noise which will then couple to the system, limiting the coherence of the quantum mechanical system. In a classical system, a clo ...
... The coherent operation and control of quantum mechanical systems is typically controlled by the application of classical external bias fields. These fields are subject to noise which will then couple to the system, limiting the coherence of the quantum mechanical system. In a classical system, a clo ...