Cold Damping of an Optically Levitated Nanoparticle to micro-Kelvin
  Temperatures

Tebbenjohanns, Felix; Frimmer, Martin; Militaru, Andrei; Jain, Vijay; Novotny, Lukas

doi:10.48550/arXiv.1812.09875

Cold Damping of an Optically Levitated Nanoparticle to micro-Kelvin Temperatures

https://doi.org/10.48550/arXiv.1812.09875
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posted on 2023-11-30, 06:47 authored by Felix Tebbenjohanns, Martin Frimmer, Andrei Militaru, Vijay Jain, Lukas Novotny

We implement a cold damping scheme to cool one mode of the center-of-mass motion of an optically levitated nanoparticle in ultrahigh vacuum from room temperature to a record-low temperature of 100 micro-Kelvin. The measured temperature dependence on feedback gain and thermal decoherence rate is in excellent agreement with a parameter-free model. We determine the imprecision-backaction product for our system and provide a roadmap towards ground-state cooling of optically levitated nanoparticles.

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Cold Damping of an Optically Levitated Nanoparticle to micro-Kelvin Temperatures

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