Stuttgart 2012 – scientific programme
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PV: Plenarvorträge
PV 15: PV XV
PV 15.1: Plenary Talk
Friday, March 16, 2012, 09:15–10:00, V53.01
Quantum Opto-Mechanics: How to extend quantum experiments to massive mechanical objects — •Markus Aspelmeyer — Vienna Center for Quantum Science and Technology (VCQ), Faculty of Physics, University of Vienna, Austria
Massive mechanical objects are now becoming available as new systems for quantum science. Quantum optics provides a powerful toolbox to generate, manipulate and detect quantum states of motion of such mechanical systems -- from nanomechanical waveguides of some picogram to macroscopic, kilogram-weight mirrors of gravitational wave detectors. Recent experiments, including laser-cooling of massive mechanical devices into their quantum ground state of motion, and demonstrations of the strong coupling regime provide the primary building blocks for full quantum optical control of mechanics, i.e. quantum optomechanics.
This has fascinating perspectives for both applications and for quantum foundations: For example, the on-chip integrability of nano- and micromechanics, together with their flexibility to couple to different physical systems, offers a novel perspective for solid-state quantum information processing architectures. At the same time, the mass of available mechanical resonators provides access to a hitherto untested parameter regime of macroscopic quantum physics via the generation of superposition states of massive systems and of optomechanical quantum entanglement, which is at the heart of Schrödinger's cat paradox. Finally, due to the large mechanical mass, table-top quantum optomechanics experiments even allow to test experimental consequences of theories of quantum gravity.