ONLINE Halbleiter zum Frühstück - Entanglement-based quantum key distribution with highly entangled photons from GaAs quantum dots

Online-Seminar
Datum:
Mi, 09.03.2022 10:00  –   Mi, 09.03.2022 11:00
Sprecher:
Armando Rastelli, Johannes Kepler Universität (JKU) Linz, Austria
Adresse:
Online


Sprache:
Englisch
Kontaktperson:
Doris Reiter, Michael Lorke, ,
DPG-Vereinigung:
Halbleiterphysik (HL)  
Externer Link:
Zoom Link, PW: HzF3

Beschreibung

Entanglement is one of the most peculiar phenomena in quantum science and a key resource for quantum technologies. More than two decades after the initial proposal [1], semiconductor quantum dots (QDs) are now beginning to outperform other sources for the generation of entangled photon pairs. Among different material systems, QDs in the (Al)GaAs platform have demonstrated the highest degree of polarization entanglement to date together with other appealing features for quantum science and technology [2]. In this talk, we will discuss the properties of GaAs QDs obtained by the droplet etching method and present recent results relevant to their application in quantum communication, i.e. entanglement-based quantum key distribution [3,4], quantum teleportation and entanglement swapping.

References

[1]         O. Benson, C. Santori, M. Pelton and Y. Yamamoto, Regulated and Entangled Photons from a Single Quantum Dot, Phys. Rev. Lett. 84, 2513–2516 (2000).

[2]         S. F. C. da Silva, G. Undeutsch, B. Lehner, S. Manna, T. M. Krieger, M. Reindl, C. Schimpf, R. Trotta and A. Rastelli, GaAs quantum dots grown by droplet etching epitaxy as quantum light sources, Appl. Phys. Lett. 119, 120502 (2021).

[3]         C. Schimpf, S. Manna, S. F. Covre da Silva, M. Aigner and A. Rastelli, Entanglement-based quantum key distribution with a blinking-free quantum dot operated at a temperature up to 20 K, Adv. Photonics 3, (2021).

[4]         C. Schimpf, M. Reindl, D. Huber, B. Lehner, S. F. Covre Da Silva, S. Manna, M. Vyvlecka, P. Walther and A. Rastelli, Quantum cryptography with highly entangled photons from semiconductor quantum dots, Sci. Adv. 7, eabe8905 (2021).