We show that a universal set of gates for quantum computation with optics can be quantum teleported through the use of EPR entangled states, homodyne detection, and linear optics and squeezing operations conditioned on measurement outcomes. This scheme may be used for fault-tolerant optical quantum computation. The teleportation of nondeterministic nonlinear gates employed in linear optics quantum computation is discussed
Quantum teleportation of optical coherent states was demonstrated experi-mentally using squeezed-sta...
This work describes the implementation of a compiled version of Shor's algorithm in a photonic syste...
Quantum computing promises a new paradigm of computation where information is processed in a way tha...
Unique in that it is jointly written by an experimentalist and a theorist, this monograph presents u...
Abstract: We show that any family of universal quantum gates can be implemented based on a single op...
Recently, classical optics based systems to emulate quantum information processing have been propose...
We demonstrate an unconditional high-fidelity teleporter capable of preserving the broadband entangl...
We present a method to create a variety of interesting gates by teleporting quantum bits through spe...
We discuss progress towards implementing two qubit quantum gates in optics. We review the operation ...
This DPhil thesis presents two key works towards practical applications of quantum optics. Both work...
We review recent theoretical progress in finding ways to do quantum processing with linear optics, n...
Quantum teleportation can relay quantum information, and enable near-deterministic quantum circuits....
We discuss the characterization of continuous variable, optical quantum teleportation in terms of th...
The experiments described in this thesis form an investigation into the path towards establishing th...
Teleportation of optical qubits can enable reliable logic operations in massively parallel quantum c...
Quantum teleportation of optical coherent states was demonstrated experi-mentally using squeezed-sta...
This work describes the implementation of a compiled version of Shor's algorithm in a photonic syste...
Quantum computing promises a new paradigm of computation where information is processed in a way tha...
Unique in that it is jointly written by an experimentalist and a theorist, this monograph presents u...
Abstract: We show that any family of universal quantum gates can be implemented based on a single op...
Recently, classical optics based systems to emulate quantum information processing have been propose...
We demonstrate an unconditional high-fidelity teleporter capable of preserving the broadband entangl...
We present a method to create a variety of interesting gates by teleporting quantum bits through spe...
We discuss progress towards implementing two qubit quantum gates in optics. We review the operation ...
This DPhil thesis presents two key works towards practical applications of quantum optics. Both work...
We review recent theoretical progress in finding ways to do quantum processing with linear optics, n...
Quantum teleportation can relay quantum information, and enable near-deterministic quantum circuits....
We discuss the characterization of continuous variable, optical quantum teleportation in terms of th...
The experiments described in this thesis form an investigation into the path towards establishing th...
Teleportation of optical qubits can enable reliable logic operations in massively parallel quantum c...
Quantum teleportation of optical coherent states was demonstrated experi-mentally using squeezed-sta...
This work describes the implementation of a compiled version of Shor's algorithm in a photonic syste...
Quantum computing promises a new paradigm of computation where information is processed in a way tha...