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Equipments Used to Measure Body Temperature01:13

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Body temperature can be assessed using various devices and measured in Celsius or Fahrenheit.
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Glass-bulb thermometers are hollow glass tubes with a bulb tip containing liquid such as ethanol or mercury. Historically, glass bulb mercury thermometers were the standard device to measure body temperature. Today, mercury thermometers are prohibited in many countries due to the hazardous effects of mercury and the risk of exposure if the glass bulb breaks. In general,...
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Dispersive Meta-lens Thermometry for High-temperature Measurements.

Yulun He1, Mu Ku Chen2,3, Mingrui Huang1

  • 1School of Mechanical Engineering, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai, 200240, China.

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|November 18, 2025
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This summary is machine-generated.

A new Dispersive Meta-lens Thermometry (DMT) uses advanced meta-lenses for accurate high-temperature measurements. This miniaturized hyperspectral approach significantly reduces errors in thermal energy transfer monitoring.

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Area of Science:

  • Physics
  • Optical Engineering
  • Materials Science

Background:

  • Accurate temperature measurement is vital for energy transfer efficiency and safety.
  • Traditional radiation thermometry for high temperatures often relies on bulky optical components.
  • Meta-lenses offer a path to miniaturized, integrated thermal sensing solutions.

Purpose of the Study:

  • To propose and demonstrate a Dispersive Meta-lens Thermometry (DMT) system for high-temperature measurements.
  • To leverage meta-lens technology for miniaturized and hyperspectral thermal sensing.
  • To improve the accuracy and efficiency of non-invasive temperature measurement.

Main Methods:

  • Utilizing a dispersive meta-lens to encode hyperspectral information into a compressed image.
  • Employing convex spectral compress sensing for data deciphering.
  • Developing a deep reverse dispersive network for advanced signal processing.

Main Results:

  • Achieved a 6-fold reduction in measurement error (<0.32%) compared to multi-spectral light-field thermometry.
  • Maintained measurement errors below 1.5% for flame impingement scenarios.
  • Demonstrated the potential for miniaturized hyperspectral high-temperature thermometry.

Conclusions:

  • The proposed DMT system offers a significant advancement in high-temperature measurement accuracy and miniaturization.
  • Meta-lens technology integrated with advanced signal processing shows great promise for future thermometry applications.
  • Further integration is needed, but the potential for compact hyperspectral thermal sensors is clearly established.