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Related Concept Videos

Temperature Measurement Sites01:14

Temperature Measurement Sites

2.5K
A thermometer measures body temperature. The common sites for measuring body temperature are the oral cavity, axillary region, temporal artery, and skin surface, such as the forehead, abdomen, and axilla. True core body temperature is assessed in the rectum, tympanic membrane, pulmonary artery, esophagus, and urinary bladder.
Oral: When assessing oral temperature, the thermometer tip should be placed under the tongue in the posterior sublingual pocket. It offers accurate readings and can be...
2.5K
Thermosensation01:43

Thermosensation

32.8K
Peripheral thermosensation is the perception of external temperature. A change in temperature (on the surface of the skin and other tissues) is detected by a family of temperature-sensitive ion channels called Transient Receptor Potential, or TRP, receptors. These receptors are located on free nerve endings. Those detecting cold temperatures are closer to the surface of the skin than the nerve endings detecting warmth. These thermoTRP channels, while temperature selective, have relatively...
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Related Experiment Video

Updated: Nov 5, 2025

A Silicon-tipped Fiber-optic Sensing Platform with High Resolution and Fast Response
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High sensitivity temperature sensor based on a side-hole fiber.

Zhenyu Yu, Tingting Lang, Jie Hu

    Applied Optics
    |May 13, 2021
    PubMed
    Summary
    This summary is machine-generated.

    A novel side-hole fiber (SHF) temperature sensor offers high sensitivity for monitoring. This easy-to-fabricate, compact sensor shows significant potential for industrial and daily life applications.

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    Area of Science:

    • Optics and Photonics
    • Fiber Optic Sensors
    • Material Science

    Background:

    • Accurate temperature monitoring is crucial for industrial processes and daily life.
    • Existing fiber optic sensors face challenges in sensitivity, size, and fabrication complexity.

    Purpose of the Study:

    • To propose and experimentally validate a novel temperature sensor utilizing side-hole fiber (SHF).
    • To investigate the sensor's performance in terms of sensitivity, size, and ease of fabrication.

    Main Methods:

    • Fabrication of the sensor by fusion splicing single-mode fiber (SMF), coreless fiber (CLF), and SHF.
    • Utilizing a dislocation fusion splicing method to expose an air hole in the SHF.
    • Analyzing the superposition of two distinct interference patterns for enhanced sensitivity.

    Main Results:

    • Achieved high temperature sensitivities of 1.587 nm/°C (heating) and 1.681 nm/°C (cooling) in the 25-45°C range.
    • Demonstrated a compact sensor design with straightforward processing.
    • The sensor exhibited a sensitive response due to superimposed interference effects.

    Conclusions:

    • The proposed SHF-based sensor offers a promising solution for accurate temperature monitoring.
    • Its high sensitivity, compact size, and ease of fabrication make it suitable for diverse applications.
    • This research holds significant value for advancing temperature sensing technologies in various fields.