We have fabricated and optimized triggered sources of entangled photon pairs using self-assembled InAs quantum dots. After optimization, a fidelity to the ideal entangled state of over 90% has been achieved
The generation and long-haul transmission of highly entangled photon pairs is a cornerstone of emerg...
Existing sources of entangled photons require a laser excitation, imposing a practical limit on thei...
We demonstrate the triggered emission of polarization-entangled photon pairs from the biexciton casc...
We have fabricated and optimized triggered sources of entangled photon pairs using self-assembled In...
We have fabricated and demonstrated the operation of triggered sources of single-photons and entangl...
The generation of entangled photon pairs is a fundamental cornerstone of quantum optics, and an esse...
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...
We propose a new method of generating triggered entangled photon pairs with wavelength on demand. Th...
We review in this chapter our recent realization and development of en- tangled light emission from ...
In this thesis, we focus on the generation of entangled photon pair from III-V quantum dots. The ach...
We review in this chapter our recent realization and development of entangled light emission from in...
Electrically-driven entangled-photon generation is demonstrated for the first time using a single In...
Self-assembled semiconductor quantum dots show great potential as efficient semiconductor-based non-...
Quantum information technology promises to offer incredible advantages over current digital systems,...
The generation and long-haul transmission of highly entangled photon pairs is a cornerstone of emerg...
Existing sources of entangled photons require a laser excitation, imposing a practical limit on thei...
We demonstrate the triggered emission of polarization-entangled photon pairs from the biexciton casc...
We have fabricated and optimized triggered sources of entangled photon pairs using self-assembled In...
We have fabricated and demonstrated the operation of triggered sources of single-photons and entangl...
The generation of entangled photon pairs is a fundamental cornerstone of quantum optics, and an esse...
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...
We propose a new method of generating triggered entangled photon pairs with wavelength on demand. Th...
We review in this chapter our recent realization and development of en- tangled light emission from ...
In this thesis, we focus on the generation of entangled photon pair from III-V quantum dots. The ach...
We review in this chapter our recent realization and development of entangled light emission from in...
Electrically-driven entangled-photon generation is demonstrated for the first time using a single In...
Self-assembled semiconductor quantum dots show great potential as efficient semiconductor-based non-...
Quantum information technology promises to offer incredible advantages over current digital systems,...
The generation and long-haul transmission of highly entangled photon pairs is a cornerstone of emerg...
Existing sources of entangled photons require a laser excitation, imposing a practical limit on thei...
We demonstrate the triggered emission of polarization-entangled photon pairs from the biexciton casc...
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