The optomechanical handling of objects with dimensions from nanoscale to mascroscopic scale is a very active research area, as presented in a recent review by Aspelmeyer et al. [1]. The range of applications is very wide, starting from quantum computation with hybrid qubits optomechanically coupled, and arriving to the controlled motion for macroscopic objects, for instance in gravitational wave detection. An important component of the research effort is the search for new materials and new optomechanical processes.
Cavity optomechanics with a functionalized silicon nitride membrane
Pisignano, D.;ARIMONDO, ENNIO;FUSO, FRANCESCO;CIAMPINI, DONATELLA
2015-01-01
Abstract
The optomechanical handling of objects with dimensions from nanoscale to mascroscopic scale is a very active research area, as presented in a recent review by Aspelmeyer et al. [1]. The range of applications is very wide, starting from quantum computation with hybrid qubits optomechanically coupled, and arriving to the controlled motion for macroscopic objects, for instance in gravitational wave detection. An important component of the research effort is the search for new materials and new optomechanical processes.File in questo prodotto:
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