Simultaneous anti-bunched and super-bunched photons from a GaAs Quantum dot in a dielectric metasurface
- URL: http://arxiv.org/abs/2603.03186v1
- Date: Tue, 03 Mar 2026 17:45:36 GMT
- Title: Simultaneous anti-bunched and super-bunched photons from a GaAs Quantum dot in a dielectric metasurface
- Authors: Sanghyeok Park, Oleg Mitrofanov, Kusal M. Abeywickrama, Samuel Prescott, Jaeyeon Yu, Stephanie C Malek, Hyunseung Jung, Emma Renteria, Sadhvikas Addamane, Alisa Javadi, Igal Brener, Prasad P Iyer,
- Abstract summary: We embed a quantum dot in a Mie-resonant metasurface that provides order-of-magnitude photoluminescence enhancement across both neutral and charged exciton transitions.<n>These results demonstrate a scalable, position-tolerant platform for harnessing the full excitonic structure of solid-state emitters.
- Score: 1.4396796017266424
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Semiconductor quantum dots host a rich manifold of excitonic complexes, including neutral excitons that emit anti-bunched single photons and charged exciton complexes capable of producing super-bunched photons via cascade emission. Accessing both emission regimes from a single emitter would open routes to novel quantum protocols, including advanced quantum imaging. In practice, however, emission from charged exciton complexes is intrinsically weak, often orders of magnitude dimmer than neutral excitons, placing simultaneous dual-mode operation out of reach. Here, we overcome this limitation by embedding the quantum dot in a dielectric Mie-resonant metasurface that provides order-of-magnitude photoluminescence enhancement across both neutral and charged exciton transitions of a single GaAs quantum dot. Under identical non-resonant pumping conditions, the emission from the neutral exciton yields anti-bunched emission ($g^{(2)}(0) < 0.5$) and the emission from positively charged exciton complexes shows super-bunched emission ($g^{(2)}(0) > 3.5$) with comparable count rates (~12 kHz). Crucially, super-bunching emerges only when charged exciton emission spectrally overlaps with the Mie resonances and vanishes in un-patterned slabs, demonstrating that photonic engineering, is essential for accessing these weak quantum light states. These results demonstrate a scalable, position-tolerant platform for harnessing the full excitonic structure of solid-state emitters.
Related papers
- Cavity quantum electrodynamics with single perovskite quantum dots [0.0]
We show the deterministic and reversible coupling of individual CsPbBr$_3$ perovskite quantum dots to a tunable, high-quality factor, low mode volume fiber-based Fabry-P'erot microcavity.<n>By tuning the cavity mode in resonance with the quantum dot emission, we observe up to a twofold increase in single photon emission rates.
arXiv Detail & Related papers (2025-03-26T10:40:15Z) - Site-Controlled Purcell-Induced Bright Single Photon Emitters in Hexagonal Boron Nitride [62.170141783047974]
Single photon emitters hosted in hexagonal boron nitride (hBN) are essential building blocks for quantum photonic technologies that operate at room temperature.
We experimentally demonstrate large-area arrays of plasmonic nanoresonators for Purcell-induced site-controlled SPEs.
Our results offer arrays of bright, heterogeneously integrated quantum light sources, paving the way for robust and scalable quantum information systems.
arXiv Detail & Related papers (2024-05-03T23:02:30Z) - Cavity-enhanced single photon emission from a single impurity-bound
exciton [42.2225785045544]
Impurity-bound excitons inSe quantum wells are bright single photon emitters.
We demonstrate cavity-enhanced emission from a single impurity-bound exciton in aSe quantum well.
arXiv Detail & Related papers (2023-09-04T18:06:54Z) - Swing-up dynamics in quantum emitter cavity systems [0.0]
In the Super scheme, excitation of a quantum emitter is achieved with two off-resonant, red-detuned laser pulses.
We extend this promising method to quantum emitters, specifically semiconductor quantum dots, inside a resonant optical cavity.
arXiv Detail & Related papers (2023-03-22T14:42:57Z) - Tunable phononic coupling in excitonic quantum emitters [6.510363316842893]
We report the deterministic creation of quantum emitters featuring highly tunable coupling between excitons and phonons.
The quantum emitters are formed in strain-induced quantum dots created in homobilayer semiconductor WSe2.
arXiv Detail & Related papers (2023-02-27T02:47:56Z) - Probing the symmetry breaking of a light--matter system by an ancillary
qubit [50.591267188664666]
Hybrid quantum systems in the ultrastrong, and even more in the deep-strong, coupling regimes can exhibit exotic physical phenomena.
We experimentally observe the parity symmetry breaking of an ancillary Xmon artificial atom induced by the field of a lumped-element superconducting resonator.
This result opens a way to experimentally explore the novel quantum-vacuum effects emerging in the deep-strong coupling regime.
arXiv Detail & Related papers (2022-09-13T06:14:08Z) - Silicon nitride waveguides with intrinsic single-photon emitters for
integrated quantum photonics [97.5153823429076]
We show the first successful coupling of photons from intrinsic single-photon emitters in SiN to monolithically integrated waveguides made of the same material.
Results pave the way toward the realization of scalable, technology-ready quantum photonic integrated circuitry.
arXiv Detail & Related papers (2022-05-17T16:51:29Z) - Single quantum emitters with spin ground states based on Cl bound
excitons in ZnSe [55.41644538483948]
We show a new type of single photon emitter with potential electron spin qubit based on Cl impurities inSe.
Results suggest single Cl impurities are suitable as single photon source with potential photonic interface.
arXiv Detail & Related papers (2022-03-11T04:29:21Z) - Photoneutralization of charges in GaAs quantum dot based entangled
photon emitters [0.923921787880063]
We show that emission quenching can be actively suppressed by controlling the balance of free electrons and holes in the vicinity of the quantum dot.
Our finding demonstrates that the emission quenching can be actively suppressed by controlling the balance of free electrons and holes in the vicinity of the quantum dot.
arXiv Detail & Related papers (2021-10-05T20:25:52Z) - Waveguide quantum electrodynamics: collective radiance and photon-photon
correlations [151.77380156599398]
Quantum electrodynamics deals with the interaction of photons propagating in a waveguide with localized quantum emitters.
We focus on guided photons and ordered arrays, leading to super- and sub-radiant states, bound photon states and quantum correlations with promising quantum information applications.
arXiv Detail & Related papers (2021-03-11T17:49:52Z) - Optical repumping of resonantly excited quantum emitters in hexagonal
boron nitride [52.77024349608834]
We present an optical co-excitation scheme which uses a weak non-resonant laser to reduce transitions to a dark state and amplify the photoluminescence from quantum emitters in hexagonal boron nitride (hBN)
Our results are important for the deployment of atom-like defects in hBN as reliable building blocks for quantum photonic applications.
arXiv Detail & Related papers (2020-09-11T10:15:22Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.