Add to ORKGElectrically-driven entangled photon generation is demonstrated for the first time using a single semiconductor quantum dot embedded in a light emitting diode structure. The entanglement fidelity is shown to be of sufficient quality for applications such as quantum key distribution. © 2011 American Institute of Physics
Lasers and LEDs have a statistical distribution in the number of photons emitted within a given time...
We present measurements on electrically generated photons from a quantum dot in an LED structure, sh...
The efficient generation of polarized single or entangled photons is a crucial requirement for the i...
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...
Electrically-driven entangled-photon generation is demonstrated for the first time using a single In...
Existing sources of entangled photons require a laser excitation, imposing a practical limit on thei...
An optical quantum computer, powerful enough to solve problems so far intractable using conventional...
Entangled photons are essential for scalable optical quantum communication and processing. We demons...
Semiconductor quantum dots (QDs) are a promising source of quantum light, combining sub-Poissonian p...
Sources of entangled pairs of photons can be used for encoding signals in quantum-encrypted communic...
We discuss recent progress using the radiative emission of single quantum dots as a triggered source...
The generation of entangled photon pairs is a fundamental cornerstone of quantum optics, and an esse...
We present measurements on electrically generated photons from a quantum dot in an LED structure, sh...
We present the results of recent experiments designed to manipulate the splitting in quantum dots, t...
Lasers and LEDs have a statistical distribution in the number of photons emitted within a given time...
We present measurements on electrically generated photons from a quantum dot in an LED structure, sh...
The efficient generation of polarized single or entangled photons is a crucial requirement for the i...
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...
Electrically-driven entangled-photon generation is demonstrated for the first time using a single In...
Existing sources of entangled photons require a laser excitation, imposing a practical limit on thei...
An optical quantum computer, powerful enough to solve problems so far intractable using conventional...
Entangled photons are essential for scalable optical quantum communication and processing. We demons...
Semiconductor quantum dots (QDs) are a promising source of quantum light, combining sub-Poissonian p...
Sources of entangled pairs of photons can be used for encoding signals in quantum-encrypted communic...
We discuss recent progress using the radiative emission of single quantum dots as a triggered source...
The generation of entangled photon pairs is a fundamental cornerstone of quantum optics, and an esse...
We present measurements on electrically generated photons from a quantum dot in an LED structure, sh...
We present the results of recent experiments designed to manipulate the splitting in quantum dots, t...
Lasers and LEDs have a statistical distribution in the number of photons emitted within a given time...
We present measurements on electrically generated photons from a quantum dot in an LED structure, sh...
The efficient generation of polarized single or entangled photons is a crucial requirement for the i...