Non-Markovian features in semiconductor quantum optics: quantifying the role of phonons in experiment and theory
We discuss phonon-induced non-Markovian and Markovian features in QD-based quantum
nanooptics. We cover lineshapes in linear absorption experiments, phonon-induced …
nanooptics. We cover lineshapes in linear absorption experiments, phonon-induced …
Distinctive characteristics of carrier-phonon interactions in optically driven semiconductor quantum dots
We review distinct features arising from the unique nature of the carrier-phonon coupling in
self-assembled semiconductor quantum dots. Because of the discrete electronic energy …
self-assembled semiconductor quantum dots. Because of the discrete electronic energy …
Electrically driven microcavity exciton-polariton optomechanics at 20 GHz
Microcavity exciton polaritons enable the resonant coupling of excitons and photons to
vibrations in the super-high-frequency (SHF, 3–30 GHz) domain. We introduce here a novel …
vibrations in the super-high-frequency (SHF, 3–30 GHz) domain. We introduce here a novel …
Interfacing quantum emitters with propagating surface acoustic waves
In this topical review, we report on recent advances on the coupling of single semiconductor
quantum emitters, quantum dots, to the dynamic strain and electric fields of surface acoustic …
quantum emitters, quantum dots, to the dynamic strain and electric fields of surface acoustic …
A review on optical excitation of semiconductor quantum dots under the influence of phonons
The preparation of excitonic states in semiconductor quantum dots is a prerequisite for the
application of quantum dots in quantum information technology, eg, as source of single or …
application of quantum dots in quantum information technology, eg, as source of single or …
Resonance-fluorescence spectral dynamics of an acoustically modulated quantum dot
Quantum technologies that rely on photonic qubits require a precise controllability of their
properties. For this purpose hybrid approaches are particularly attractive because they offer …
properties. For this purpose hybrid approaches are particularly attractive because they offer …
All-optical generation, detection, and manipulation of picosecond acoustic pulses in 2D semiconductor/dielectric heterostructures
Launching, tracking, and controlling picosecond acoustic (PA) pulses are fundamentally
important for the construction of ultrafast hypersonic wave sources, ultrafast manipulation of …
important for the construction of ultrafast hypersonic wave sources, ultrafast manipulation of …
Phonon impact on optical control schemes of quantum dots: Role of quantum dot geometry and symmetry
Phonons strongly influence the optical control of semiconductor quantum dots. When
modeling the electron-phonon interaction in several theoretical approaches, the quantum …
modeling the electron-phonon interaction in several theoretical approaches, the quantum …
Theory of radial oscillations in metal nanoparticles driven by optically induced electron density gradients
We provide a microscopic approach to describe the onset of radial oscillation of a silver
nanoparticle. Using the Heisenberg equation of motion framework, we find that the coupled …
nanoparticle. Using the Heisenberg equation of motion framework, we find that the coupled …
Remote phonon control of quantum dots and other artificial atoms
To exploit the full potential of chips for quantum technologies, it is worth considering all
possible opportunities offered by the solid state. The aspect covered in this article is the use …
possible opportunities offered by the solid state. The aspect covered in this article is the use …