Eamonn Hawe scite author profile

This paper describes a multipass absorption sensor based on an integrating sphere. The sphere has an internal coating which is highly reflective (over 95%) in the near infrared region and this allows for the detection of CO2 at two regions in the spectrum: 2 µm and 1.57 µm. CO2 was detected around the 2 µm region using a light emitting diode as the emitter and a photodiode as the detector, while detection at the 1.57 µm region took place using a broadband ASE source as the emitter and a miniature spectrometer as a detector. A 2 in diameter (50.8 mm) integrating sphere was used as an absorption gas cell. This paper reports the generation of effective optical path lengths of 114 cm at the 1.57 µm region and 40 cm at the 2 µm region. Experimental results demonstrating the detection of CO2 using a 2 in diameter integrating sphere are presented and simulation results based on larger integrating spheres are also reported. Further simulations conducted in the mid-infrared region suggest the possibility of detecting trace levels of CO2 (less than 200 ppm) using a 2 in diameter integrating sphere.

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An investigation into the use of an integrating sphere as a gas absorption cell

Hawe¹,

Fitzpatrick²,

Chambers³

et al. 2007

J. Opt. A: Pure Appl. Opt.

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Eamonn Hawe

Hazardous gas detection using an integrating sphere as a multipass gas absorption cell

Gas detection using an integrating sphere as a multipass absorption cell

Hazardous gas detection with an integrating sphere in the near-infrared

CO₂monitoring and detection using an integrating sphere as a multipass absorption cell

An investigation into the use of an integrating sphere as a gas absorption cell

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Eamonn Hawe

Hazardous gas detection using an integrating sphere as a multipass gas absorption cell

Gas detection using an integrating sphere as a multipass absorption cell

Hazardous gas detection with an integrating sphere in the near-infrared

CO2monitoring and detection using an integrating sphere as a multipass absorption cell

An investigation into the use of an integrating sphere as a gas absorption cell

Contact Info

Product

Resources

About

CO₂monitoring and detection using an integrating sphere as a multipass absorption cell