Add to ORKGEntangled photons are essential for scalable optical quantum communication and processing. We demonstrate electrical generation of entangled light using a quantum dot within an LED, and interactions between entangled photons by two-photon-interference. © 2012 IEEE
Quantum teleportation can relay quantum information, and enable near-deterministic quantum circuits....
Existing sources of entangled photons require a laser excitation, imposing a practical limit on thei...
We demonstrate optical interferometry beyond the limits imposed by the photon wavelength using 'trig...
We present measurements on electrically generated photons from a quantum dot in an LED structure, sh...
We present measurements on electrically generated photons from a quantum dot in an LED structure, sh...
Electrically-driven entangled photon generation is demonstrated for the first time using a single se...
We demonstrate electrically-driven entangled photon generation using a semiconductor quantum dot emb...
We demonstrate electrically-driven entangled photon generation using a semiconductor quantum dot emb...
Sources of entangled pairs of photons can be used for encoding signals in quantum-encrypted communic...
An optical quantum computer, powerful enough to solve problems so far intractable using conventional...
We demonstrate for the first time teleportation mediated by electrically generated entangled photon ...
Quantum information technology promises to offer incredible advantages over current digital systems,...
Electrically-driven entangled-photon generation is demonstrated for the first time using a single In...
A linear optical quantum computer relies on interference between photonic qubits for logic, and enta...
We demonstrate for the first time teleportation mediated by electrically generated entangled photon ...
Quantum teleportation can relay quantum information, and enable near-deterministic quantum circuits....
Existing sources of entangled photons require a laser excitation, imposing a practical limit on thei...
We demonstrate optical interferometry beyond the limits imposed by the photon wavelength using 'trig...
We present measurements on electrically generated photons from a quantum dot in an LED structure, sh...
We present measurements on electrically generated photons from a quantum dot in an LED structure, sh...
Electrically-driven entangled photon generation is demonstrated for the first time using a single se...
We demonstrate electrically-driven entangled photon generation using a semiconductor quantum dot emb...
We demonstrate electrically-driven entangled photon generation using a semiconductor quantum dot emb...
Sources of entangled pairs of photons can be used for encoding signals in quantum-encrypted communic...
An optical quantum computer, powerful enough to solve problems so far intractable using conventional...
We demonstrate for the first time teleportation mediated by electrically generated entangled photon ...
Quantum information technology promises to offer incredible advantages over current digital systems,...
Electrically-driven entangled-photon generation is demonstrated for the first time using a single In...
A linear optical quantum computer relies on interference between photonic qubits for logic, and enta...
We demonstrate for the first time teleportation mediated by electrically generated entangled photon ...
Quantum teleportation can relay quantum information, and enable near-deterministic quantum circuits....
Existing sources of entangled photons require a laser excitation, imposing a practical limit on thei...
We demonstrate optical interferometry beyond the limits imposed by the photon wavelength using 'trig...