Quantum Physics Meets Music: A "Real-Time" Guitar Recording Using Rydberg-Atoms and Electromagnetically Induced Transparency

We demonstrate how Rydberg atoms and the phenomena of electromagnetically induced transparency can be used to aid in the recording of a musical instrument in real time as it is played. Also, by using two different atomic species (cesium and rubidium) in the same vapor cell, we demonstrate the abilit...

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Veröffentlicht in:	arXiv.org 2019-04
Hauptverfasser:	Holloway, Christopher L, Simons, Matthew T, Haddab, Abdulaziz H, Williams, Carl J, Holloway, Maxwell W
Format:	Artikel
Sprache:	eng
Schlagworte:	Audio data Cesium Guitars Musical instruments Physics - Atomic Physics Quantum theory Real time Recording Rubidium
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description	We demonstrate how Rydberg atoms and the phenomena of electromagnetically induced transparency can be used to aid in the recording of a musical instrument in real time as it is played. Also, by using two different atomic species (cesium and rubidium) in the same vapor cell, we demonstrate the ability to record two guitars simultaneously, where each atomic species detects and allows for the recording of each guitar separately. The approach shows how audio data (the musical composition) can be detected with a quantum system, illustrating how we can control ensembles of atoms to such an extent that we can use them in this "entertaining" example of recording a musical instrument.
doi_str_mv	10.48550/arxiv.1904.01952
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subjects	Audio data Cesium Guitars Musical instruments Physics - Atomic Physics Quantum theory Real time Recording Rubidium
title	Quantum Physics Meets Music: A "Real-Time" Guitar Recording Using Rydberg-Atoms and Electromagnetically Induced Transparency
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