Collective super- and subradiant dynamics between distant optical quantum emitters

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Standard

Collective super- and subradiant dynamics between distant optical quantum emitters. / Tiranov, Alexey; Angelopoulou, Vasiliki; van Diepen, Cornelis Jacobus; Schrinski, Björn; Sandberg, Oliver August Dall'Alba; Wang, Ying; Midolo, Leonardo; Scholz, Sven; Wieck, Andreas Dirk; Ludwig, Arne; Sørensen, Anders Søndberg; Lodahl, Peter.

I: Science, Bind 379, Nr. 6630, 2023, s. 389-393.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Tiranov, A, Angelopoulou, V, van Diepen, CJ, Schrinski, B, Sandberg, OADA, Wang, Y, Midolo, L, Scholz, S, Wieck, AD, Ludwig, A, Sørensen, AS & Lodahl, P 2023, 'Collective super- and subradiant dynamics between distant optical quantum emitters', Science, bind 379, nr. 6630, s. 389-393. https://doi.org/10.1126/science.ade9324

APA

Tiranov, A., Angelopoulou, V., van Diepen, C. J., Schrinski, B., Sandberg, O. A. DA., Wang, Y., Midolo, L., Scholz, S., Wieck, A. D., Ludwig, A., Sørensen, A. S., & Lodahl, P. (2023). Collective super- and subradiant dynamics between distant optical quantum emitters. Science, 379(6630), 389-393. https://doi.org/10.1126/science.ade9324

Vancouver

Tiranov A, Angelopoulou V, van Diepen CJ, Schrinski B, Sandberg OADA, Wang Y o.a. Collective super- and subradiant dynamics between distant optical quantum emitters. Science. 2023;379(6630):389-393. https://doi.org/10.1126/science.ade9324

Author

Tiranov, Alexey ; Angelopoulou, Vasiliki ; van Diepen, Cornelis Jacobus ; Schrinski, Björn ; Sandberg, Oliver August Dall'Alba ; Wang, Ying ; Midolo, Leonardo ; Scholz, Sven ; Wieck, Andreas Dirk ; Ludwig, Arne ; Sørensen, Anders Søndberg ; Lodahl, Peter. / Collective super- and subradiant dynamics between distant optical quantum emitters. I: Science. 2023 ; Bind 379, Nr. 6630. s. 389-393.

Bibtex

@article{5c4f6b8b3f7d43c1bb913ea0c465ee61,

title = "Collective super- and subradiant dynamics between distant optical quantum emitters",

abstract = "Photon emission is the hallmark of light-matter interaction and the foundation of photonic quantum science, enabling advanced sources for quantum communication and computing. Although single-emitter radiation can be tailored by the photonic environment, the introduction of multiple emitters extends this picture. A fundamental challenge, however, is that the radiative dipole-dipole coupling rapidly decays with spatial separation, typically within a fraction of the optical wavelength. We realize distant dipole-dipole radiative coupling with pairs of solid-state optical quantum emitters embedded in a nanophotonic waveguide. We dynamically probe the collective response and identify both super- and subradiant emission as well as means to control the dynamics by proper excitation techniques. Our work constitutes a foundational step toward multiemitter applications for scalable quantum-information processing.",

author = "Alexey Tiranov and Vasiliki Angelopoulou and {van Diepen}, {Cornelis Jacobus} and Bj{\"o}rn Schrinski and Sandberg, {Oliver August Dall'Alba} and Ying Wang and Leonardo Midolo and Sven Scholz and Wieck, {Andreas Dirk} and Arne Ludwig and S{\o}rensen, {Anders S{\o}ndberg} and Peter Lodahl",

year = "2023",

doi = "10.1126/science.ade9324",

language = "English",

volume = "379",

pages = "389--393",

journal = "Science",

issn = "0036-8075",

publisher = "American Association for the Advancement of Science",

number = "6630",

}

RIS

TY - JOUR

T1 - Collective super- and subradiant dynamics between distant optical quantum emitters

AU - Tiranov, Alexey

AU - Angelopoulou, Vasiliki

AU - van Diepen, Cornelis Jacobus

AU - Schrinski, Björn

AU - Sandberg, Oliver August Dall'Alba

AU - Wang, Ying

AU - Midolo, Leonardo

AU - Scholz, Sven

AU - Wieck, Andreas Dirk

AU - Ludwig, Arne

AU - Sørensen, Anders Søndberg

AU - Lodahl, Peter

PY - 2023

Y1 - 2023

N2 - Photon emission is the hallmark of light-matter interaction and the foundation of photonic quantum science, enabling advanced sources for quantum communication and computing. Although single-emitter radiation can be tailored by the photonic environment, the introduction of multiple emitters extends this picture. A fundamental challenge, however, is that the radiative dipole-dipole coupling rapidly decays with spatial separation, typically within a fraction of the optical wavelength. We realize distant dipole-dipole radiative coupling with pairs of solid-state optical quantum emitters embedded in a nanophotonic waveguide. We dynamically probe the collective response and identify both super- and subradiant emission as well as means to control the dynamics by proper excitation techniques. Our work constitutes a foundational step toward multiemitter applications for scalable quantum-information processing.

AB - Photon emission is the hallmark of light-matter interaction and the foundation of photonic quantum science, enabling advanced sources for quantum communication and computing. Although single-emitter radiation can be tailored by the photonic environment, the introduction of multiple emitters extends this picture. A fundamental challenge, however, is that the radiative dipole-dipole coupling rapidly decays with spatial separation, typically within a fraction of the optical wavelength. We realize distant dipole-dipole radiative coupling with pairs of solid-state optical quantum emitters embedded in a nanophotonic waveguide. We dynamically probe the collective response and identify both super- and subradiant emission as well as means to control the dynamics by proper excitation techniques. Our work constitutes a foundational step toward multiemitter applications for scalable quantum-information processing.

U2 - 10.1126/science.ade9324

DO - 10.1126/science.ade9324

M3 - Journal article

C2 - 36701463

AN - SCOPUS:85146928340

VL - 379

SP - 389

EP - 393

JO - Science

JF - Science

SN - 0036-8075

IS - 6630

ER -

ID: 370699356

Niels Bohr Institutet