Nanomechanics, nanoacoustics, and nanophononics refer to the engineering of acoustic
phonons and elastic waves at the nanoscale and their interactions with other excitations …

Photonic quantum technology is essentially based on the exchange of individual photons as
information carriers. Therefore, the development of practical single-photon sources that emit …

Incorporating solid‐state quantum emitters into optical fiber networks enables the long‐
distance transmission of quantum information and the remote connection of distributed …

We perform extended numerical studies to maximize the overall photon coupling efficiency
of fiber-coupled quantum dot single-photon sources emitting in the near-infrared and O …

Gigahertz acoustic resonators have the potential to advance data processing and quantum
communication. However, they are expensive and lack responsiveness to external stimuli …

Spontaneous Brillouin scattering in bulk crystalline solids is governed by the intrinsic
selection rules locking the relative polarization of the excitation laser and the Brillouin signal …

Topological interface states in periodic lattices have emerged as valuable assets in the
fields of electronics, photonics, and phononics, owing to their inherent robustness against …

The possibility of creating and manipulating nanostructured materials encouraged the
exploration of new strategies to control electromagnetic properties. Among the most …

The fast-growing development of optomechanical applications has motivated advancements
in Brillouin scattering research. In particular, the study of high-frequency acoustic phonons at …

We report on a process for the fiber-coupling of electrically driven cavity-enhanced quantum
dot light emitting devices. The developed technique allows for the direct and permanent …