Gallium Arsenide Optical Fiber Temperature Sensor Small Probe Size 0.5mm Temperature Measurement Accuracy ±0.1℃

Gallium arsenide optical fiber temperature sensor Small probe size 0.5mm temperature measurement accuracy ±0.1℃

Gallium arsenide (GaAs) optical fiber temperature sensor is a kind of non-contact temperature measurement system based on semiconductor optical characteristics, which realizes high precision temperature measurement through the principle that the light absorption or fluorescence characteristics of GaAs materials change with temperature. Its core advantages in all-optical signal transmission (no electromagnetic interference), small probe size (as small as 0.5mm), resistance to extreme environments (high voltage, strong corrosion, strong electromagnetic field, etc.), widely used in semiconductor, electric power, medical and scientific research fields.

Working principle

(1) Absorption side temperature measurement type
Principle: The wavelength of the light absorption side of GaAs shifts towards the long wave direction (~0.4nm/℃) with the increase of temperature.

Implementation method:

Broadband light sources (such as leds) transmit optical signals to the GaAs probe through optical fibers.

GaAs chips absorb specific wavelengths of light (absorption side wavelength is temperature-dependent).

The reflected light signal is returned to the demodulator and the temperature is calculated by spectral analysis.

Features: Simple structure, low cost, suitable for industrial applications (such as power equipment monitoring).

(2) Fluorescent lifetime temperature measurement type
Principle: The lifetime of GaAs stimulated emission fluorescence is inversely proportional to temperature.

Implementation method:

The pulsed laser excites the GaAs probe to produce fluorescence.

The fluorescence decay time (lifetime) is detected, and the temperature is converted by calibration curve.

Features: Higher accuracy (±0.05℃), suitable for medical and scientific research fields.

Technical specifications

Peculiarity

High precision: temperature measurement accuracy up to ±0.1℃ (0~100℃ range), resolution 0.01℃.

Fast response: Response time <100ms, suitable for dynamic temperature monitoring.

Anti-interference: Full fiber signal transmission, complete immunity to electromagnetic interference (EMI/RFI).

Resistant to harsh environments:

Operating temperature range: -50℃~300℃ (special package can reach 500℃).

High pressure (>10kV) and radiation resistance (suitable for the nuclear industry).

Miniaturized probe: The minimum diameter of the probe is 0.5mm, which can be embedded in small Spaces or biological tissues.

Long distance transmission: Fiber length does not affect accuracy (1 meter to kilometer performance is consistent).