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Showing 1–6 of 6 results

Advanced filters: Author: Dorian A. Gangloff Clear advanced filters

Witnessing quantum correlations in a nuclear ensemble via an electron spin qubit

Atoms in a semiconductor can have non-zero nuclear spins, creating a large ensemble with many quantum degrees of freedom. An electron spin coupled to the nuclei of a semiconductor quantum dot can witness the creation of entanglement within the ensemble.

Dorian A. Gangloff
Leon Zaporski
Mete Atatüre
Research14 Oct 2021
Nature Physics

Volume: 17, P: 1247-1253
Laser activation of single group-IV colour centres in diamond

Group-IV color centers in diamond show promise for spin-photon interfaces, but precise positioning and activation are challenging. Here the authors combine site-controlled ion implantation with laser annealing and in-situ photoluminescence monitoring to create and tune individual tin vacancy centers in diamond.

Xingrui Cheng
Andreas Thurn
Dorian A. Gangloff
ResearchOpen Access02 Jun 2025
Nature Communications

Volume: 16, P: 1-12
A many-body quantum register for a spin qubit

The thousands of nuclear spins surrounding gallium arsenide quantum dots can interface with electron spin qubits and photons. With quantum engineering, this nuclear spin ensemble becomes a robust register for quantum information storage.

Martin Hayhurst Appel
Alexander Ghorbal
Mete Atatüre
ResearchOpen Access24 Jan 2025
Nature Physics

Volume: 21, P: 368-373
Observation of Aubry-type transition in finite atom chains via friction

The transition from superlubricity to stick–slip behaviour of a chain of atoms on a periodic surface has now been directly studied experimentally, related to the Aubry transition.

Alexei Bylinskii
Dorian Gangloff
Vladan Vuletić
Research21 Mar 2016
Nature Materials

Volume: 15, P: 717-721
Velocity tuning of friction with two trapped atoms

To study atomic-scale friction in a controlled environment, researchers used two trapped, laser-cooled ions in an additional optical potential. This set-up provides a better understanding of the interplay between thermal and structural lubricity.

Dorian Gangloff
Alexei Bylinskii
Vladan Vuletić
Research14 Sept 2015
Nature Physics

Volume: 11, P: 915-919
Ideal refocusing of an optically active spin qubit under strong hyperfine interactions

Optically active semiconductor quantum dots have so far suffered from nuclear inhomogeneity limiting all dynamical decoupling measurements to a few microseconds. Lattice-matched GaAs–AlGaAs quantum dots now enable decoupling schemes to achieve a 0.11 ms spin coherence time.

Leon Zaporski
Noah Shofer
Claire Le Gall
Research26 Jan 2023
Nature Nanotechnology

Volume: 18, P: 257-263