PhD Seminar: Nanoscale Tunable Quantum Light SourcesExport this event to calendar

Wednesday, August 29, 2018 — 11:00 AM EDT

Candidate: Mohd Zeeshan

Title: Nanoscale Tunable Quantum Light Sources

Date: August 29, 2018

Time: 11:00 am

Place: EIT 3151-3153

Supervisor(s): Reimer, Michael M.E.

Abstract:

Entangled photon sources are crucial for quantum optics, quantum sensing and quantum communication. Semiconductor quantum dots in nanowires have recently emerged as leading candidates to generate entangled photons due to their high brightness and directional Gaussian emission profile for near-unity fiber coupling. However, the structural asymmetry of the quantum dot leads to a fine-structure splitting (FSS) and severely limits the use of quantum dots as a source of entangled photon pairs with high fidelity. In this work, we propose a novel approach for generating a pair of entangled photons from the quantum dot with high fidelity by correcting the spatial asymmetry of the excitonic wave function via application of a quadrupole electrostatic potential.

We have performed numerical simulations for the proposed device by Nextnano3 in 2D, which solves the Schrödinger-poison equation self-consistently. Our results demonstrate that the spatial asymmetry of the excitonic wave function can be tuned without compromising the spatial overlap between electron and holes. Importantly, the FSS can be tuned to zero, meaning that the excitonic wavefunction is symmetric, even when the electrical gates are misaligned with respect to the quantum dot asymmetry.

Finally, we will present the nanofabrication recipe of the first generation of devices with design optimization. This work paves the way toward a deterministic source of entangled photons with high fidelity and unprecedented collection efficiency.

Location 
EIT - Centre for Environmental and Information Technology
Room 3151-53
200 University Avenue West

Kitchener, ON N2L 3G1
Canada

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