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Main Authors: Yang, Likai, Xie, Jiacheng, Tang, Hong X.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.13411
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author Yang, Likai
Xie, Jiacheng
Tang, Hong X.
author_facet Yang, Likai
Xie, Jiacheng
Tang, Hong X.
contents Converting phonons to photons with optomechanical interaction provides a pathway to realize single phonon counting, which is instrumental in the quantum applications of mechanical systems such as entanglement generation, thermometry, and study of macroscopic quantum phenomenon. In this process, the key requirement is high-extinction, narrowbandwidth, and stable filtering of the parametric optical pump. Here, we propose to lift this necessity by counting fluorescence emission from a rare earth embedded optomechanical cavity. By doing so, we show that an equivalent filtering effect can be achieved due to spectral hole burning and cavity Purcell effect. To demonstrate this, we designed, fabricated, and characterized an integrated piezo-optomechanical FabryPerot cavity on the erbium doped thin-film lithium niobate platform. By collecting fluorescence from the optomechanical sideband, we show that 93dB suppression of the pump can be achieved with 10dB loss of signal, resulting in an increase of 83dB in sidebandpump ratio. Our results facilitate a route to realize f ilterless single phonon counting and also create new opportunities to study the interaction between solid state emitters and mechanical systems.
format Preprint
id arxiv_https___arxiv_org_abs_2412_13411
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Fluorescence enabled phonon counting in an erbium doped piezo-optomechanical microcavity
Yang, Likai
Xie, Jiacheng
Tang, Hong X.
Optics
Converting phonons to photons with optomechanical interaction provides a pathway to realize single phonon counting, which is instrumental in the quantum applications of mechanical systems such as entanglement generation, thermometry, and study of macroscopic quantum phenomenon. In this process, the key requirement is high-extinction, narrowbandwidth, and stable filtering of the parametric optical pump. Here, we propose to lift this necessity by counting fluorescence emission from a rare earth embedded optomechanical cavity. By doing so, we show that an equivalent filtering effect can be achieved due to spectral hole burning and cavity Purcell effect. To demonstrate this, we designed, fabricated, and characterized an integrated piezo-optomechanical FabryPerot cavity on the erbium doped thin-film lithium niobate platform. By collecting fluorescence from the optomechanical sideband, we show that 93dB suppression of the pump can be achieved with 10dB loss of signal, resulting in an increase of 83dB in sidebandpump ratio. Our results facilitate a route to realize f ilterless single phonon counting and also create new opportunities to study the interaction between solid state emitters and mechanical systems.
title Fluorescence enabled phonon counting in an erbium doped piezo-optomechanical microcavity
topic Optics
url https://arxiv.org/abs/2412.13411