Related papers: Two-photon interference between mutually-detuned resonance fluorescence signals scattered off a semiconductor quantum dot

Two-photon interference between mutually-detuned resonance fluorescence signals scattered off a semiconductor quantum dot

URL: http://arxiv.org/abs/2501.16939v2
Date: Wed, 29 Jan 2025 06:39:22 GMT
Title: Two-photon interference between mutually-detuned resonance fluorescence signals scattered off a semiconductor quantum dot
Authors: Guoqi Huang, Jian Wang, Ziqi Zeng, Hanqing Liu, Li Liu, Weijie Ji, Bang Wu, Haiqiao Ni, Zhichuan Niu, Rongzhen Jiao, Davide G. Marangon, Zhiliang Yuan,
Abstract summary: Post-selective two-photon interference experiments between mutually-detuned resonance fluorescence signals from an InAs quantum dot embedded in a micropillar cavity. Results suggest that indistinguishability among photons scattered off a quantum dot is inherently insensitive to the driving laser's detuning.
Score: 8.451939626098337
License:
Abstract: Radiative linewidth of a two-level emitter (TLE) ultimately determines the bandwidth it can offer for quantum information processing. However, no prior experiment has so far been performed to examine the effect of driving detuning on indistinguishability of photons scattered off a TLE, a parameter that is crucial for photonic quantum computing. Here, we perform post-selective two-photon interference experiments between mutually-detuned resonance fluorescence signals from an InAs quantum dot embedded in a micropillar cavity. Our results suggest that indistinguishability among photons scattered off a quantum dot is inherently insensitive to the driving laser's detuning, as straightforwardly predicted by the resonance fluorescence model that systematically treats all scattered photons as spontaneous emission.

Related papers

Addressing the correlation of Stokes-shifted photons emitted from two quantum emitters [0.0]
We propose a general model to characterize the correlation of either Zero-Phonon Line photons or Stokes-shifted photons. This model successfully reproduces the experimental correlation of Stokes-shifted photons emitted from two interacting molecules. We analyze the role of quantum coherence in light emission from two uncorrelated emitters.
arXiv Detail & Related papers (2025-01-31T18:07:02Z)
Sensing Based on Quantum Correlation of Photons in the Weak Nonlinear Regime [14.121716788061336]
Quantum correlation of photons based on quantum interference has been extensively studied for realizing single-photon sources in weak nonlinear regime. We propose schemes to realize sensitive sensing by the quantum correlation of photons based on quantum interference.
arXiv Detail & Related papers (2024-11-28T13:39:25Z)
Non-classical excitation of a solid-state quantum emitter [0.0]
We show that a single photon is sufficient to change the state of a solid-state quantum emitter. These results suggest future possibilities ranging from enabling quantum information transfer in a quantum network to building deterministic entangling gates for photonic quantum computing.
arXiv Detail & Related papers (2024-07-30T16:16:58Z)
Tailoring photon statistics with an atom-based two-photon interferometer [0.0]
We actively control the quantum phase between the transmitted and incoherently scattered two-photon component. We observe interference fringes in the normalized photon coincidence rate, varying from antibunching to bunching. Our results lend themselves to the development of novel quantum light sources.
arXiv Detail & Related papers (2022-12-19T16:24:54Z)
On-chip quantum information processing with distinguishable photons [55.41644538483948]
Multi-photon interference is at the heart of photonic quantum technologies. Here, we experimentally demonstrate that detection can be implemented with a temporal resolution sufficient to interfere photons detuned on the scales necessary for cavity-based integrated photon sources. We show how time-resolved detection of non-ideal photons can be used to improve the fidelity of an entangling operation and to mitigate the reduction of computational complexity in boson sampling experiments.
arXiv Detail & Related papers (2022-10-14T18:16:49Z)
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)
Two-photon resonance fluorescence of two interacting non-identical quantum emitters [77.34726150561087]
We study a system of two interacting, non-indentical quantum emitters driven by a coherent field. We show that the features imprinted by the two-photon dynamics into the spectrum of resonance fluorescence are particularly sensitive to changes in the distance between emitters. This can be exploited for applications such as superresolution imaging of point-like sources.
arXiv Detail & Related papers (2021-06-04T16:13:01Z)
Observation-dependent suppression and enhancement of two-photon coincidences by tailored losses [68.8204255655161]
Hong-Ou-Mandel (HOM) effect can lead to a perfect suppression of two-particle coincidences between the output ports of a balanced beam splitter. In this work, we demonstrate experimentally that the two-particle coincidence statistics of two bosons can instead be seamlessly tuned to substantial enhancement. Our findings reveal a new approach to harnessing non-Hermitian settings for the manipulation of multi-particle quantum states.
arXiv Detail & Related papers (2021-05-12T06:47:35Z)
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)
Coherently controlled quantum features in a coupled interferometric scheme [0.0]
In an interferometric scheme, anticorrelation results from photon bunching based on randomness when entangled photon pairs impinge on a beam splitter. In this paper, the origin of quantum features in a coupled interferometric scheme is investigated using pure coherence optics. A deterministic method of entangled photon-pair generation is proposed for on-demand coherence control of quantum processing.
arXiv Detail & Related papers (2021-02-18T07:10:32Z)
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.