Add to ORKGWe show that single InAs quantum dots embedded in a planar cavity, formed by mismatched sets of GaAs/AlAs distributed Bragg reflectors, can be a useful source of triggered single photons as well as polarisation-entangled photon pairs. The former is demonstrated with a second order correlation function under 0.1 and the latter with a fidelity exceeding 70%. Such quantum dot devices may be useful in quantum communications and quantum information processing. © 2008 Springer-Verlag Berlin Heidelberg
Quantum dots are considered an attractive system for applications in quantum communication and quant...
International audienceFor the past fifteen years, single semiconductor quantum dots, often referred ...
Polarisation-entangled photon pairs are generated from single InAs quantum dots. This is achieved by...
We show that single InAs quantum dots embedded in a planar cavity, formed by mismatched sets of GaAs...
Current quantum cryptography systems are limited by the attenuated coherent pulses they use as light...
The efficient generation of polarized single or entangled photons is a crucial requirement for the i...
We discuss recent progress using the radiative emission of single quantum dots as a triggered source...
The generation and long-haul transmission of highly entangled photon pairs is a cornerstone of emerg...
Single and entangled photon sources are fundamental building blocks of future light-based quantum te...
We present the results of recent experiments designed to manipulate the splitting in quantum dots, t...
Self-assembled semiconductor quantum dots show great potential as efficient semiconductor-based non-...
We have fabricated and demonstrated the operation of triggered sources of single-photons and entangl...
Significant advances have been made in the past five years in realizing photon sources based on vari...
The emission statistics of single semiconductor quantum dots is investigated in view of generating q...
We demonstrate the triggered emission of polarization-entangled photon pairs from the biexciton casc...
Quantum dots are considered an attractive system for applications in quantum communication and quant...
International audienceFor the past fifteen years, single semiconductor quantum dots, often referred ...
Polarisation-entangled photon pairs are generated from single InAs quantum dots. This is achieved by...
We show that single InAs quantum dots embedded in a planar cavity, formed by mismatched sets of GaAs...
Current quantum cryptography systems are limited by the attenuated coherent pulses they use as light...
The efficient generation of polarized single or entangled photons is a crucial requirement for the i...
We discuss recent progress using the radiative emission of single quantum dots as a triggered source...
The generation and long-haul transmission of highly entangled photon pairs is a cornerstone of emerg...
Single and entangled photon sources are fundamental building blocks of future light-based quantum te...
We present the results of recent experiments designed to manipulate the splitting in quantum dots, t...
Self-assembled semiconductor quantum dots show great potential as efficient semiconductor-based non-...
We have fabricated and demonstrated the operation of triggered sources of single-photons and entangl...
Significant advances have been made in the past five years in realizing photon sources based on vari...
The emission statistics of single semiconductor quantum dots is investigated in view of generating q...
We demonstrate the triggered emission of polarization-entangled photon pairs from the biexciton casc...
Quantum dots are considered an attractive system for applications in quantum communication and quant...
International audienceFor the past fifteen years, single semiconductor quantum dots, often referred ...
Polarisation-entangled photon pairs are generated from single InAs quantum dots. This is achieved by...