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Collective excitation of spatio-spectrally distinct quantum dots enabled by chirped pulses

Titelangaben

Kappe, Florian ; Karli, Yusuf ; Bracht, Thomas K. ; Covre da Silva, Saimon Filipe ; Seidelmann, Tim ; Axt, Vollrath Martin ; Rastelli, Armando ; Weihs, Gregor ; Reiter, Doris E. ; Remesh, Vikas:
Collective excitation of spatio-spectrally distinct quantum dots enabled by chirped pulses.
In: Materials for Quantum Technology. Bd. 3 (2023) Heft 2 . - 025006.
ISSN 2633-4356
DOI: https://doi.org/10.1088/2633-4356/acd7c1

Angaben zu Projekten

Projektfinanzierung: Deutsche Forschungsgemeinschaft
Austrian Science Fund FWF projects W1259 (DK-ALM Atoms, Light, and Molecules), FG 5, TAI-556N (DarkEneT) and I4380 (AEQuD0t). FWF projects FG 5, P 30459, I 4320. Linz Institute of Technology (LIT)

Abstract

Nanoscale bright sources that produce high-purity single photons and high-fidelity entangled photon pairs are the building blocks to realize high security quantum communication devices. To achieve high communication rates, it is desirable to have an ensemble of quantum emitters that can be collectively excited, despite their spectral variability. In case of semiconductor quantum dots, Rabi rotations are the most popular method for resonant excitation. However, these cannot assure a universal, highly efficient excited state preparation, due to the sensitivity to excitation parameters. In contrast, adiabatic rapid passage (ARP), relying on chirped optical pulses, is immune to quantum dot spectral inhomogeneity. Here, we show that the robustness of ARP holds true for the simultaneous excitation of the biexciton states in multiple, spatially separated and spectrally different quantum dots. For positive chirps, we also find a regime where the influence of phonons relax the sensitivity to spectral detunings and lower the needed excitation power. Being able to generate high-purity photons from spatially multiplexed quantum dot sources using the biexciton to ground state cascade is a big step towards the implementation of high photon rate, entanglement-based quantum key distribution protocols.

Weitere Angaben

Publikationsform: Artikel in einer Zeitschrift
Begutachteter Beitrag: Ja
Keywords: quantum dots; electron phonon interaction; chirped pulses; quantum control
Fachklassifikationen: condensed matter physics (theoretical and experimental)
Institutionen der Universität: Fakultäten > Fakultät für Mathematik, Physik und Informatik > Physikalisches Institut
Fakultäten > Fakultät für Mathematik, Physik und Informatik > Physikalisches Institut > Lehrstuhl Theoretische Physik III > Lehrstuhl Theoretische Physik III - Univ.-Prof. Dr. Martin Axt
Fakultäten
Fakultäten > Fakultät für Mathematik, Physik und Informatik
Fakultäten > Fakultät für Mathematik, Physik und Informatik > Physikalisches Institut > Lehrstuhl Theoretische Physik III
Titel an der UBT entstanden: Ja
Themengebiete aus DDC: 500 Naturwissenschaften und Mathematik > 530 Physik
Eingestellt am: 03 Nov 2023 10:15
Letzte Änderung: 06 Dec 2024 09:21
URI: https://eref.uni-bayreuth.de/id/eprint/87450