Abstract
The our research objective is to study IR energy transfer in pulsed and continuous mode through optical fibers produced from crystals of silver halide and a monovalent thallium solid solutions. It is assumed that the transfer of infrared radiation in the pulsed mode will significantly reduce losses. We designed the experimental setup, determined its operational parameters, and obtained the dependence of the detector’s received radiation on the frequency of the pulses of thermal radiation. As a research subjects we used two different fibers compositions namely AgCl0.25Br0.75 and Ag0.95Tl0.05Br0.95I0.05.
Highlights
The our research objective is to study IR energy transfer in pulsed and continuous mode through optical fibers produced from crystals of silver halide and a monovalent thallium solid solutions
The temperature of a heated body can be measured using the properties of optical fibers based on solid solutions of silver halides and monovalent thallium (AgBr-TlI and AgCl-AgBr) [1] to receive and transmit radiation from heated bodies to sensors
Experimental setup To study transmission of the thermal radiation in the pulsed mode using an optical fiber, an optoelectronic system was designed and constructed, the scheme of which is shown in figure 1
Summary
The temperature of a heated body can be measured using the properties of optical fibers based on solid solutions of silver halides and monovalent thallium (AgBr-TlI and AgCl-AgBr) [1] to receive and transmit radiation from heated bodies to sensors. The our research objective is to study IR energy transfer in pulsed and continuous mode through optical fibers produced from crystals of silver halide and a monovalent thallium solid solutions.
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