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Coherent control of collective nuclear quantum states via transient magnons.

Lars BocklageJakob GollwitzerCornelius StrohmChristian F AdolffKai SchlageIlya SergeevOlaf LeupoldHans-Christian WilleGuido MeierRalf Röhlsberger
Published in: Science advances (2021)
Ultrafast and precise control of quantum systems at x-ray energies involves photons with oscillation periods below 1 as. Coherent dynamic control of quantum systems at these energies is one of the major challenges in hard x-ray quantum optics. Here, we demonstrate that the phase of a quantum system embedded in a solid can be coherently controlled via a quasi-particle with subattosecond accuracy. In particular, we tune the quantum phase of a collectively excited nuclear state via transient magnons with a precision of 1 zs and a timing stability below 50 ys. These small temporal shifts are monitored interferometrically via quantum beats between different hyperfine-split levels. The experiment demonstrates zeptosecond interferometry and shows that transient quasi-particles enable accurate control of quantum systems embedded in condensed matter environments.
Keyphrases
  • molecular dynamics
  • energy transfer
  • density functional theory
  • high resolution
  • monte carlo
  • magnetic resonance imaging
  • mass spectrometry
  • quantum dots
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