Crux of Using the Cascaded Emission of a Three-Level Quantum Ladder System to Generate Indistinguishable Photons

Eva Schöll; Lucas Schweickert; Lukas Hanschke; Katharina D. Zeuner; Friedrich Sbresny; Thomas Lettner; Rahul Trivedi; Marcus Reindl; Saimon Covre da Silva; Rinaldo Trotta; Jonathan Finley; Jelena Vuckovic; Kai Müller; Armando Rastelli; Val Zwiller; Klaus Jöns

doi:10.1103/PhysRevLett.125.233605

Crux of Using the Cascaded Emission of a Three-Level Quantum Ladder System to Generate Indistinguishable Photons

Eva Schöll
, Lucas Schweickert
, Lukas Hanschke
, Katharina D. Zeuner
, Friedrich Sbresny
, Thomas Lettner
, Rahul Trivedi
, Marcus Reindl
, Saimon Covre da Silva
, Rinaldo Trotta
, Jonathan Finley
, Jelena Vuckovic
, Kai Müller
, Armando Rastelli
, Val Zwiller
, Klaus Jöns

Abteilung für Halbleiterphysik

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

Abstract

We investigate the degree of indistinguishability of cascaded photons emitted from a three-level quantum ladder system; in our case the biexciton-exciton cascade of semiconductor quantum dots. For the three-level quantum ladder system we theoretically demonstrate that the indistinguishability is inherently limited for both emitted photons and determined by the ratio of the lifetimes of the excited and intermediate states. We experimentally confirm this finding by comparing the quantum interference visibility of noncascaded emission and cascaded emission from the same semiconductor quantum dot. Quantum optical simulations produce very good agreement with the measurements and allow us to explore a large parameter space. Based on our model, we propose photonic structures to optimize the lifetime ratio and overcome the limited indistinguishability of cascaded photon emission from a three-level quantum ladder system.

Originalsprache	Englisch
Aufsatznummer	233605
Seiten (von - bis)	233605
Seitenumfang	7
Fachzeitschrift	Physical Review Letters
Volume	125
Ausgabenummer	23
DOIs	https://doi.org/10.1103/PhysRevLett.125.233605
Publikationsstatus	Veröffentlicht - 01 Dez. 2020

Wissenschaftszweige

103 Physik, Astronomie

JKU-Schwerpunkte

Digital Transformation

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10.1103/PhysRevLett.125.233605

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Schöll, E., Schweickert, L., Hanschke, L., Zeuner, K. D., Sbresny, F., Lettner, T., Trivedi, R., Reindl, M., Covre da Silva, S., Trotta, R., Finley, J., Vuckovic, J., Müller, K., Rastelli, A., Zwiller, V., & Jöns, K. (2020). Crux of Using the Cascaded Emission of a Three-Level Quantum Ladder System to Generate Indistinguishable Photons. Physical Review Letters, 125(23), 233605. Artikel 233605. https://doi.org/10.1103/PhysRevLett.125.233605

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title = "Crux of Using the Cascaded Emission of a Three-Level Quantum Ladder System to Generate Indistinguishable Photons",

abstract = "We investigate the degree of indistinguishability of cascaded photons emitted from a three-level quantum ladder system; in our case the biexciton-exciton cascade of semiconductor quantum dots. For the three-level quantum ladder system we theoretically demonstrate that the indistinguishability is inherently limited for both emitted photons and determined by the ratio of the lifetimes of the excited and intermediate states. We experimentally confirm this finding by comparing the quantum interference visibility of noncascaded emission and cascaded emission from the same semiconductor quantum dot. Quantum optical simulations produce very good agreement with the measurements and allow us to explore a large parameter space. Based on our model, we propose photonic structures to optimize the lifetime ratio and overcome the limited indistinguishability of cascaded photon emission from a three-level quantum ladder system.",

author = "Eva Sch{\"o}ll and Lucas Schweickert and Lukas Hanschke and Zeuner, \{Katharina D.\} and Friedrich Sbresny and Thomas Lettner and Rahul Trivedi and Marcus Reindl and \{Covre da Silva\}, Saimon and Rinaldo Trotta and Jonathan Finley and Jelena Vuckovic and Kai M{\"u}ller and Armando Rastelli and Val Zwiller and Klaus J{\"o}ns",

year = "2020",

month = dec,

day = "1",

doi = "10.1103/PhysRevLett.125.233605",

language = "English",

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journal = "Physical Review Letters",

issn = "1079-7114",

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Schöll, E, Schweickert, L, Hanschke, L, Zeuner, KD, Sbresny, F, Lettner, T, Trivedi, R, Reindl, M, Covre da Silva, S, Trotta, R, Finley, J, Vuckovic, J, Müller, K, Rastelli, A, Zwiller, V & Jöns, K 2020, 'Crux of Using the Cascaded Emission of a Three-Level Quantum Ladder System to Generate Indistinguishable Photons', Physical Review Letters, Jg. 125, Nr. 23, 233605, S. 233605. https://doi.org/10.1103/PhysRevLett.125.233605

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T1 - Crux of Using the Cascaded Emission of a Three-Level Quantum Ladder System to Generate Indistinguishable Photons

AU - Schöll, Eva

AU - Schweickert, Lucas

AU - Hanschke, Lukas

AU - Zeuner, Katharina D.

AU - Sbresny, Friedrich

AU - Lettner, Thomas

AU - Trivedi, Rahul

AU - Reindl, Marcus

AU - Covre da Silva, Saimon

AU - Trotta, Rinaldo

AU - Finley, Jonathan

AU - Vuckovic, Jelena

AU - Müller, Kai

AU - Rastelli, Armando

AU - Zwiller, Val

AU - Jöns, Klaus

PY - 2020/12/1

Y1 - 2020/12/1

N2 - We investigate the degree of indistinguishability of cascaded photons emitted from a three-level quantum ladder system; in our case the biexciton-exciton cascade of semiconductor quantum dots. For the three-level quantum ladder system we theoretically demonstrate that the indistinguishability is inherently limited for both emitted photons and determined by the ratio of the lifetimes of the excited and intermediate states. We experimentally confirm this finding by comparing the quantum interference visibility of noncascaded emission and cascaded emission from the same semiconductor quantum dot. Quantum optical simulations produce very good agreement with the measurements and allow us to explore a large parameter space. Based on our model, we propose photonic structures to optimize the lifetime ratio and overcome the limited indistinguishability of cascaded photon emission from a three-level quantum ladder system.

AB - We investigate the degree of indistinguishability of cascaded photons emitted from a three-level quantum ladder system; in our case the biexciton-exciton cascade of semiconductor quantum dots. For the three-level quantum ladder system we theoretically demonstrate that the indistinguishability is inherently limited for both emitted photons and determined by the ratio of the lifetimes of the excited and intermediate states. We experimentally confirm this finding by comparing the quantum interference visibility of noncascaded emission and cascaded emission from the same semiconductor quantum dot. Quantum optical simulations produce very good agreement with the measurements and allow us to explore a large parameter space. Based on our model, we propose photonic structures to optimize the lifetime ratio and overcome the limited indistinguishability of cascaded photon emission from a three-level quantum ladder system.

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