Hole g-factor Anisotropy Impacts Spin-Photon Entanglement in InGaAs Quantum Dots

Prashant R. Ramesh; E. Annoni; N. Margaria; D. A. Fioretto; A. Pischagin; M. Morassi; A. Lemaitre; M. F. Doty; P. Senellart; L. Lanco; N. Belabas; S. C. Wein; O. Krebs

doi:10.1364/quantum.2025.qtu4b.4

Hole g-factor Anisotropy Impacts Spin-Photon Entanglement in InGaAs Quantum Dots

Prashant R. Ramesh
, E. Annoni
, N. Margaria
, D. A. Fioretto
, A. Pischagin
, M. Morassi
, A. Lemaitre
, M. F. Doty
, P. Senellart
, L. Lanco
, N. Belabas
, S. C. Wein
, O. Krebs

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Contribution à une conférence › Revue par des pairs

Résumé

We probe the origin of hole g-factor anisotropy in InGaAs QDs, using photo-luminescence measurements to construct a spin Hamiltonian model, then using this model to simulate the impact of the anisotropy on spin-photon entanglement generation.

langue originale	Anglais
titre	Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition
Editeur	Optical Society of America
ISBN (Electronique)	9781957171487
Les DOIs	https://doi.org/10.1364/quantum.2025.qtu4b.4
état	Publié - 1 janv. 2025
Modification externe	Oui
Evénement	Optica Quantum 2.0 Conference and Exhibition, QUANTUM 2025 - San Francisco, États-Unis Durée: 1 juin 2025 → 5 juin 2025

Série de publications

Nom	Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition

Une conférence

Une conférence	Optica Quantum 2.0 Conference and Exhibition, QUANTUM 2025
Pays/Territoire	États-Unis
La ville	San Francisco
période	1/06/25 → 5/06/25

Accès au document

10.1364/quantum.2025.qtu4b.4

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Ramesh, P. R., Annoni, E., Margaria, N., Fioretto, D. A., Pischagin, A., Morassi, M., Lemaitre, A., Doty, M. F., Senellart, P., Lanco, L., Belabas, N., Wein, S. C., & Krebs, O. (2025). Hole g-factor Anisotropy Impacts Spin-Photon Entanglement in InGaAs Quantum Dots. Dans Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition Article QTu4B.4 (Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition). Optical Society of America. https://doi.org/10.1364/quantum.2025.qtu4b.4

@inproceedings{bc0e48e93feb47cd8ffb74cb8886f363,

title = "Hole g-factor Anisotropy Impacts Spin-Photon Entanglement in InGaAs Quantum Dots",

abstract = "We probe the origin of hole g-factor anisotropy in InGaAs QDs, using photo-luminescence measurements to construct a spin Hamiltonian model, then using this model to simulate the impact of the anisotropy on spin-photon entanglement generation.",

author = "Ramesh, \{Prashant R.\} and E. Annoni and N. Margaria and Fioretto, \{D. A.\} and A. Pischagin and M. Morassi and A. Lemaitre and Doty, \{M. F.\} and P. Senellart and L. Lanco and N. Belabas and Wein, \{S. C.\} and O. Krebs",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s).; Optica Quantum 2.0 Conference and Exhibition, QUANTUM 2025 ; Conference date: 01-06-2025 Through 05-06-2025",

year = "2025",

month = jan,

day = "1",

doi = "10.1364/quantum.2025.qtu4b.4",

language = "English",

series = "Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition",

publisher = "Optical Society of America",

booktitle = "Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition",

}

Ramesh, PR, Annoni, E, Margaria, N, Fioretto, DA, Pischagin, A, Morassi, M, Lemaitre, A, Doty, MF, Senellart, P, Lanco, L, Belabas, N, Wein, SC & Krebs, O 2025, Hole g-factor Anisotropy Impacts Spin-Photon Entanglement in InGaAs Quantum Dots. Dans Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition., QTu4B.4, Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition, Optical Society of America, Optica Quantum 2.0 Conference and Exhibition, QUANTUM 2025, San Francisco, États-Unis, 1/06/25. https://doi.org/10.1364/quantum.2025.qtu4b.4

Hole g-factor Anisotropy Impacts Spin-Photon Entanglement in InGaAs Quantum Dots. / Ramesh, Prashant R.; Annoni, E.; Margaria, N. et al.
Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition. Optical Society of America, 2025. QTu4B.4 (Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition).

Résultats de recherche: Le chapitre dans un livre, un rapport, une anthologie ou une collection › Contribution à une conférence › Revue par des pairs

TY - GEN

T1 - Hole g-factor Anisotropy Impacts Spin-Photon Entanglement in InGaAs Quantum Dots

AU - Ramesh, Prashant R.

AU - Annoni, E.

AU - Margaria, N.

AU - Fioretto, D. A.

AU - Pischagin, A.

AU - Morassi, M.

AU - Lemaitre, A.

AU - Doty, M. F.

AU - Senellart, P.

AU - Lanco, L.

AU - Belabas, N.

AU - Wein, S. C.

AU - Krebs, O.

PY - 2025/1/1

Y1 - 2025/1/1

N2 - We probe the origin of hole g-factor anisotropy in InGaAs QDs, using photo-luminescence measurements to construct a spin Hamiltonian model, then using this model to simulate the impact of the anisotropy on spin-photon entanglement generation.

AB - We probe the origin of hole g-factor anisotropy in InGaAs QDs, using photo-luminescence measurements to construct a spin Hamiltonian model, then using this model to simulate the impact of the anisotropy on spin-photon entanglement generation.

UR - https://www.scopus.com/pages/publications/105013083320

U2 - 10.1364/quantum.2025.qtu4b.4

DO - 10.1364/quantum.2025.qtu4b.4

M3 - Conference contribution

AN - SCOPUS:105013083320

T3 - Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition

BT - Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition

PB - Optical Society of America

T2 - Optica Quantum 2.0 Conference and Exhibition, QUANTUM 2025

Y2 - 1 June 2025 through 5 June 2025

ER -

Ramesh PR, Annoni E, Margaria N, Fioretto DA, Pischagin A, Morassi M et al. Hole g-factor Anisotropy Impacts Spin-Photon Entanglement in InGaAs Quantum Dots. Dans Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition. Optical Society of America. 2025. QTu4B.4. (Quantum 2.0 in Proceedings Optica Quantum 2.0 Conference and Exhibition). doi: 10.1364/quantum.2025.qtu4b.4

Hole g-factor Anisotropy Impacts Spin-Photon Entanglement in InGaAs Quantum Dots

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