Measurement of the temperature change of PVCP tissue phantom illuminated by dermatological laser 1.series
Description
Application of laboratory set-up for characterization of thermal properties of optical tissue phantoms during laser irradiation is presented. The produced system utilizes a thermographic camera VIGOcam v50 and a dermatological laser system with a 975 nm diode laser module. The set-up was used to perform measurements of the temporal and spatial temperature distribution on the surface of the phantom. The VIGOcam v50 thermal imaging camera allows for the measurement of temperature changes with a resolution of 70 mK. The study has demonstrated that this laboratory set-up can be successfully used for the measurement of the changes in phantom surface temperature over time as a result of illumination by dermatological laser. It also allows visualizing the dynamics of the cooling process of the phantom.
The measurement set-up.
Dataset file
hexmd5(md5(part1)+md5(part2)+...)-{parts_count}
where a single part of the file is 512 MB in size.Example script for calculation:
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File details
- License:
-
open in new tabCC BY-NCNon-commercial
- Raw data:
- Data contained in dataset was not processed.
Details
- Year of publication:
- 2021
- Verification date:
- 2021-10-01
- Creation date:
- 2016
- Dataset language:
- English
- Fields of science:
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- Automation, electronic and electrical engineering (Engineering and Technology)
- biomedical engineering (Engineering and Technology)
- DOI:
- DOI ID 10.34808/4c18-6125 open in new tab
- Verified by:
- Gdańsk University of Technology
Keywords
- IR thermography
- lasers in medicine
- thermal properties of tissues
- optical skin phantoms
- tissue-mimicking phantoms
References
- publication Multi-layered tissue head phantoms for noninvasive optical diagnostics
- publication Measurements of fundamental properties of homogeneous tissue phantoms
- publication Nanoparticle-free tissue-mimicking phantoms with intrinsic scattering
- publication Nanodiamond phantoms mimicking human liver: perspective to calibration of T1 relaxation time in magnetic resonance imaging
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