Measurement of Rapid Temperature Profiles Using Thermoluminescent Microparticles
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Mah, Merlin L.Manfred, Michael E.
Kim, Sangho S.
Prokić, Mirjana S.
Yukihara, Eduardo G.
Talghader, Joseph J.
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The thermal history of a material with initially filled trap states may be probed using thermoluminescence. Since luminescent microparticles are composed of robust oxides, they are viable candidates for sensing temperature under conditions where all other types of direct-contact sensors fail. Mg(2)SiO(4) : Tb, Co particles with two thermoluminescent peaks have been heated using micromachined heaters over a 232 degrees C to 313 degrees C range on time scales of less than 200 ms. The effect of maximum temperature during excitation on the intensity ratio of the two luminescent peaks has been compared with first-order kinetics theory and shown to match within an average error of 4.4%.
Keywords:
Microelectromechanical devices / temperature measurement / thermal history / thermoluminescence (TL)Source:
IEEE Sensors Journal, 2010, 10, 2, 311-315Funding / projects:
- Defense Threat Reduction Agency [HDTRA1-07-1-0016]
DOI: 10.1109/JSEN.2009.2034023
ISSN: 1530-437X
WoS: 000273135800013
Scopus: 2-s2.0-73849099357
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VinčaTY - JOUR AU - Mah, Merlin L. AU - Manfred, Michael E. AU - Kim, Sangho S. AU - Prokić, Mirjana S. AU - Yukihara, Eduardo G. AU - Talghader, Joseph J. PY - 2010 UR - https://vinar.vin.bg.ac.rs/handle/123456789/3856 AB - The thermal history of a material with initially filled trap states may be probed using thermoluminescence. Since luminescent microparticles are composed of robust oxides, they are viable candidates for sensing temperature under conditions where all other types of direct-contact sensors fail. Mg(2)SiO(4) : Tb, Co particles with two thermoluminescent peaks have been heated using micromachined heaters over a 232 degrees C to 313 degrees C range on time scales of less than 200 ms. The effect of maximum temperature during excitation on the intensity ratio of the two luminescent peaks has been compared with first-order kinetics theory and shown to match within an average error of 4.4%. T2 - IEEE Sensors Journal T1 - Measurement of Rapid Temperature Profiles Using Thermoluminescent Microparticles VL - 10 IS - 2 SP - 311 EP - 315 DO - 10.1109/JSEN.2009.2034023 ER -
@article{ author = "Mah, Merlin L. and Manfred, Michael E. and Kim, Sangho S. and Prokić, Mirjana S. and Yukihara, Eduardo G. and Talghader, Joseph J.", year = "2010", abstract = "The thermal history of a material with initially filled trap states may be probed using thermoluminescence. Since luminescent microparticles are composed of robust oxides, they are viable candidates for sensing temperature under conditions where all other types of direct-contact sensors fail. Mg(2)SiO(4) : Tb, Co particles with two thermoluminescent peaks have been heated using micromachined heaters over a 232 degrees C to 313 degrees C range on time scales of less than 200 ms. The effect of maximum temperature during excitation on the intensity ratio of the two luminescent peaks has been compared with first-order kinetics theory and shown to match within an average error of 4.4%.", journal = "IEEE Sensors Journal", title = "Measurement of Rapid Temperature Profiles Using Thermoluminescent Microparticles", volume = "10", number = "2", pages = "311-315", doi = "10.1109/JSEN.2009.2034023" }
Mah, M. L., Manfred, M. E., Kim, S. S., Prokić, M. S., Yukihara, E. G.,& Talghader, J. J.. (2010). Measurement of Rapid Temperature Profiles Using Thermoluminescent Microparticles. in IEEE Sensors Journal, 10(2), 311-315. https://doi.org/10.1109/JSEN.2009.2034023
Mah ML, Manfred ME, Kim SS, Prokić MS, Yukihara EG, Talghader JJ. Measurement of Rapid Temperature Profiles Using Thermoluminescent Microparticles. in IEEE Sensors Journal. 2010;10(2):311-315. doi:10.1109/JSEN.2009.2034023 .
Mah, Merlin L., Manfred, Michael E., Kim, Sangho S., Prokić, Mirjana S., Yukihara, Eduardo G., Talghader, Joseph J., "Measurement of Rapid Temperature Profiles Using Thermoluminescent Microparticles" in IEEE Sensors Journal, 10, no. 2 (2010):311-315, https://doi.org/10.1109/JSEN.2009.2034023 . .