CORDIS Project
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This project investigates high-frequency phonons in II-VI semiconductor materials using an innovative optical open cavity method. By exciting and detecting coherent phonons, it aims to enhance phonon generation efficiency, which is crucial for advancements in quantum technology and solid-state physics.
Phonons are vibrations of atoms in solids that play a significant role in material science and solid-state physics.
High-frequency phonons have gained attention in the fields of quantum technology and nanophononics.
Their small wavelengths make them compatible with quantum nano-devices and their frequencies can surpass modern computation speeds.
This potential makes phonons useful for qubits, quantum memories, hybrid systems, and elements in quantum computing networks.
Exploring phonons and thei…
UNIWERSYTET WARSZAWSKI
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