Add to ORKGCavity optomechanics examines the mutual interaction between light and mechanical motion for controlling mechanical resonators down to the quantum regime. A major challenge in the field of cavity optomechanics remains accessing a strong interaction between the light field and mechanics on the level of single quanta. Optomechanical systems with small mode volumes show considerable enhancement in the interaction strength. However, in a majority of these systems the increase in the interaction strength comes at the cost of additional optical losses. Therefore, one cannot exploit the novel capabilities of such systems often.This thesis is about the development of a monolithic cavity optomechanical platform using III-V materials which demonstrat...
Multielement cavity optomechanics constitutes a direction to observe novel effects with mechanical r...
In this contribution, we will show how nanophotonic structures can be used to gain access to previou...
Optomechanical systems offer a potential platform for testing quantum effects in relatively massive ...
We present high-reflectivity mechanical resonators fabricated from AlGaAs heterostructures for use i...
Cavity optomechanics is a rapidly evolving field operating at the intersection of solid-state physic...
The rapid development of high-QM macroscopic mechanical resonators has enabled great advances in opt...
Cavity optomechanics studies the interaction between mechanical resonators and optical cavities thro...
Multielement cavity optomechanics constitutes a direction to observe novel effects with mechanical r...
Increasing the interaction between light and mechanical resonators is an ongoing endeavor in the fie...
The hybridization of semiconductor optoelectronic devices and nanomechanical resonators provides a n...
At the nanoscale, the optomechanical coupling increases thanks to a reduced optical/mechanical inter...
Recent experiments demonstrated that GaAs/AlAs based micropillar cavities are promising systems for ...
We characterize the opto-mechanical properties of double-layer mechanical devices. These closely spa...
We propose a versatile, free-space cavity optomechanics platform built from two photonic crystal mem...
Thermal motion of a room-temperature mechanical resonator typically dominates the quantum backaction...
Multielement cavity optomechanics constitutes a direction to observe novel effects with mechanical r...
In this contribution, we will show how nanophotonic structures can be used to gain access to previou...
Optomechanical systems offer a potential platform for testing quantum effects in relatively massive ...
We present high-reflectivity mechanical resonators fabricated from AlGaAs heterostructures for use i...
Cavity optomechanics is a rapidly evolving field operating at the intersection of solid-state physic...
The rapid development of high-QM macroscopic mechanical resonators has enabled great advances in opt...
Cavity optomechanics studies the interaction between mechanical resonators and optical cavities thro...
Multielement cavity optomechanics constitutes a direction to observe novel effects with mechanical r...
Increasing the interaction between light and mechanical resonators is an ongoing endeavor in the fie...
The hybridization of semiconductor optoelectronic devices and nanomechanical resonators provides a n...
At the nanoscale, the optomechanical coupling increases thanks to a reduced optical/mechanical inter...
Recent experiments demonstrated that GaAs/AlAs based micropillar cavities are promising systems for ...
We characterize the opto-mechanical properties of double-layer mechanical devices. These closely spa...
We propose a versatile, free-space cavity optomechanics platform built from two photonic crystal mem...
Thermal motion of a room-temperature mechanical resonator typically dominates the quantum backaction...
Multielement cavity optomechanics constitutes a direction to observe novel effects with mechanical r...
In this contribution, we will show how nanophotonic structures can be used to gain access to previou...
Optomechanical systems offer a potential platform for testing quantum effects in relatively massive ...