Add to ORKGIn this thesis, we focus on the generation of entangled photon pair from III-V quantum dots. The achievements mainly consists of two aspects: one is the wavelength tunability of these entangled photon pairs, which is enabled by on-chip strain engineering; the other is the brightness enhancement with an optical-broadband antenna to boost the extraction of entangled photons from the material matrix where quantum dots are embedded in
We report on the observation of nearly maximally entangled photon pairs from semiconductor quantum d...
Entanglement resources are key ingredients of future quantum technologies. If they could be efficien...
We report here on semiconductor quantum dots capable of emitting highly entangled photon pairs, on t...
In this thesis, we focus on the generation of entangled photon pair from III-V quantum dots. The ach...
Many of the quantum information applications rely on indistinguishable sources of polarization-entan...
Single and entangled photon sources are fundamental building blocks of future light-based quantum te...
The generation and long-haul transmission of highly entangled photon pairs is a cornerstone of emerg...
Many quantum photonic technologies require the efficient generation of entangled pairs of photons, b...
Triggered sources of entangled photon pairs are key components in most quantum communication protoco...
Quantum information technology promises to offer incredible advantages over current digital systems,...
On demand single-photon and entangled-photon sources are key building-blocks for many proposed photo...
The generation of entangled photon pairs is a fundamental cornerstone of quantum optics, and an esse...
We present the results of recent experiments designed to manipulate the splitting in quantum dots, t...
Entanglement between particles is a crucial resource in quantum information processing, an important...
We propose a new method of generating triggered entangled photon pairs with wavelength on demand. Th...
We report on the observation of nearly maximally entangled photon pairs from semiconductor quantum d...
Entanglement resources are key ingredients of future quantum technologies. If they could be efficien...
We report here on semiconductor quantum dots capable of emitting highly entangled photon pairs, on t...
In this thesis, we focus on the generation of entangled photon pair from III-V quantum dots. The ach...
Many of the quantum information applications rely on indistinguishable sources of polarization-entan...
Single and entangled photon sources are fundamental building blocks of future light-based quantum te...
The generation and long-haul transmission of highly entangled photon pairs is a cornerstone of emerg...
Many quantum photonic technologies require the efficient generation of entangled pairs of photons, b...
Triggered sources of entangled photon pairs are key components in most quantum communication protoco...
Quantum information technology promises to offer incredible advantages over current digital systems,...
On demand single-photon and entangled-photon sources are key building-blocks for many proposed photo...
The generation of entangled photon pairs is a fundamental cornerstone of quantum optics, and an esse...
We present the results of recent experiments designed to manipulate the splitting in quantum dots, t...
Entanglement between particles is a crucial resource in quantum information processing, an important...
We propose a new method of generating triggered entangled photon pairs with wavelength on demand. Th...
We report on the observation of nearly maximally entangled photon pairs from semiconductor quantum d...
Entanglement resources are key ingredients of future quantum technologies. If they could be efficien...
We report here on semiconductor quantum dots capable of emitting highly entangled photon pairs, on t...