Luminescence thermometry for detection of optical cooling from colloidal quantum dots embedded in dielectric waveguides

Mark V. Reymatias; Shruti I. Gharde; Arjun Senthil; Landon A. Schmucker; Gema J. Alas; Rafael A. Castro; DeYannah J. Walker; Adreanna G. Rael; Nathan J. Withers; Alexander Neumann; Sergei A. Ivanov; John D. Watt; Dale L. Huber; Gennady A. Smolyakov; Marek Osinski; IEEE

doi:10.1109/RAPID51799.2021.9521420

Conference proceeding

Luminescence thermometry for detection of optical cooling from colloidal quantum dots embedded in dielectric waveguides

Mark V. Reymatias, Shruti I. Gharde, Arjun Senthil, Landon A. Schmucker, Gema J. Alas, Rafael A. Castro, DeYannah J. Walker, Adreanna G. Rael, Nathan J. Withers, Alexander Neumann, …

2021 IEEE Research and Applications of Photonics in Defense Conference (RAPID), pp.1-2

08/2021

DOI: https://doi.org/10.1109/RAPID51799.2021.9521420

Abstract and subjects

Cooling

Dielectrics

Optical pumping

Power lasers

Quantum dot lasers

Waveguide lasers

Waveguide transitions

We have developed a novel method of pump-probe luminescence thermometry based on the detection of photoluminescence signal phase change versus power of the pumping laser, and applied it to studies of optical cooling from colloidal quantum dots embedded in dielectric waveguides.

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Title: Luminescence thermometry for detection of optical cooling from colloidal quantum dots embedded in dielectric waveguides
Authors/Creators - name: Mark V. Reymatias
Shruti I. Gharde
Arjun Senthil
Landon A. Schmucker
Gema J. Alas
Rafael A. Castro
DeYannah J. Walker
Adreanna G. Rael
Nathan J. Withers
Alexander Neumann
Sergei A. Ivanov
John D. Watt
Dale L. Huber
Gennady A. Smolyakov
Marek Osinski
IEEE
Publication Details: 2021 IEEE Research and Applications of Photonics in Defense Conference (RAPID), pp.1-2
Publisher: IEEE
Language: English
Resource Type: Conference proceeding
ISBN: 1665422238; 9781665422239; 1665422238; 9781665422239
DOI: https://doi.org/10.1109/RAPID51799.2021.9521420