ausblenden:
Schlagwörter:
Quantum Physics, quant-ph
MPINP:
Research group A. Pálffy – Division C. H. Keitel
Zusammenfassung:
The search for new control methods over light-matter interactions is one of
the engines that advances fundamental physics and applied science alike. A
specific class of light-matter interaction interfaces are setups coupling
photons of distinct frequencies via matter. Such devices, nontrivial in design,
could be endowed with multifunctional tasking. Here we envisage for the first
time an optomechanical system that bridges optical and robust, high-frequency
x-ray photons, which are otherwise notoriously difficult to control. The
x-ray-optical system comprises of an optomechanical cavity and a movable
microlever interacting with an optical laser and with x-rays via resonant
nuclear scattering. We show that optomechanically induced transparency of a
broad range of photons (10 eV-100 keV) is achievable in this setup, allowing to
tune nuclear x-ray absorption spectra via optomechanical control. This paves
ways for metrology applications, e.g., the detection of the 229Thorium
clock transition, and an unprecedentedly precise control of x-rays using
optical photons.