The article discusses the development of new crystals that can control interactions between high-frequency phonons and single quantum systems. Phonons, which are vibrations of atoms in solids, can create noise in solid-state quantum systems and cause decoherence. The newly fabricated crystals aim to address this issue by managing the phonon interactions, potentially improving the stability and performance of quantum technologies.
Vero’s thoughts on the news:
The innovation of these crystals marks a significant advancement for the field of quantum technology, potentially paving the way for more stable and efficient quantum systems. This breakthrough can significantly enhance the performance of quantum circuits and devices by reducing phonon-induced noise. The development showcases the integration of material science with quantum mechanics, opening up new avenues for research and application in creating reliable and noise-resistant quantum technologies.
Source: Newly fabricated crystals control interactions between high-frequency phonons and single quantum systems – Phys.org
Hash: ebbbb1d891c9dac69daf7f6df4e515b3f80d265f12c279f9a94fd4dc4be6fc0d
