Epitaxial quantum dots: a semiconductor launchpad for photonic quantum technologies
Epitaxial quantum dots formed by III–V compound semiconductors are excellent sources of
non-classical photons, creating single photons and entangled multi-photon states on …
non-classical photons, creating single photons and entangled multi-photon states on …
Tailoring solid-state single-photon sources with stimulated emissions
The coherent interaction of electromagnetic fields with solid-state two-level systems can
yield deterministic quantum light sources for photonic quantum technologies. To date, the …
yield deterministic quantum light sources for photonic quantum technologies. To date, the …
Coherent control of a high-orbital hole in a semiconductor quantum dot
JY Yan, C Chen, XD Zhang, YT Wang, HG Babin… - Nature …, 2023 - nature.com
Coherently driven semiconductor quantum dots are one of the most promising platforms for
non-classical light sources and quantum logic gates which form the foundation of photonic …
non-classical light sources and quantum logic gates which form the foundation of photonic …
Symmetry breaking via alloy disorder to explain radiative Auger transitions in self-assembled quantum dots
The optical spectrum of a quantum dot is typically dominated by the fundamental transition
between the lowest-energy configurations. However, the radiative Auger process can result …
between the lowest-energy configurations. However, the radiative Auger process can result …
Charge tunable GaAs quantum dots in a photonic nip diode
HG Babin, J Ritzmann, N Bart, M Schmidt, T Kruck… - Nanomaterials, 2021 - mdpi.com
In this submission, we discuss the growth of charge-controllable GaAs quantum dots
embedded in an nip diode structure, from the perspective of a molecular beam epitaxy …
embedded in an nip diode structure, from the perspective of a molecular beam epitaxy …
All-Optical Ultrafast Arbitrary Rotation of Hole Orbital Qubits with Direct Phase Control
Complete quantum control of a stationary quantum bit embedded in a quantum emitter is
crucial for photonic quantum information technologies. Recently, the orbital degree of …
crucial for photonic quantum information technologies. Recently, the orbital degree of …
Harnessing graft copolymerization and inverse vulcanization to engineer sulfur-enriched copolymers for the selective uptake of heavy metals
Y Ma, C Shi, Q Hong, J Du, H Zhang, X Zheng… - Separation and …, 2025 - Elsevier
This study presents the synthesis of a novel sulfur-based copolymer, S-Tha-Cy, through a
unique approach involving graft copolymerization and inverse vulcanization, leveraging …
unique approach involving graft copolymerization and inverse vulcanization, leveraging …
Experimental determination of Sn -shell atomic parameters
F Fernandez, A Sepúlveda, S Limandri, J Trincavelli… - Physical Review A, 2023 - APS
A careful inspection on the tin L x-ray spectrum induced by electron impact was carried out,
with the aim of obtaining fundamental atomic properties related to core ionizations and …
with the aim of obtaining fundamental atomic properties related to core ionizations and …
Complete quantum control of orbital qubits by phase-controlled stimulated Raman transitions
Complete quantum control of a stationary quantum bit embedded in a quantum emitter is
crucial for photonic quantum information technologies. Recently, the orbital degree of …
crucial for photonic quantum information technologies. Recently, the orbital degree of …
Harmonizing single photons with a laser pulse
Harmonizing single photons with a laser pulse | Nature Nanotechnology Skip to main content
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