Add to ORKGTemperature sensing is an integral part of any nuclear reactor facilities. However, high radiation and temperature degrade the sensing materials which in turn makes the sensors less reliable. In this paper, chalcogenide glasses are proposed as temperature sensing materials for reactor facilities. Chalcogenide glasses go through amorphous to crystalline phase transformation when heated up to their crystallization temperature. This phase transition changes both the electrical and optical properties of the chalcogenide glasses. They are amorphous in nature and radiation hard due to their specific electronic structure and high defect density. Difference in reflected power at 1310 nm and 1550 nm wavelengths as a function of temperature, from cha...
International audienceIn the sensor field, chalcogenide glasses are well stablished membranes or thi...
Chalcogenide glasses of different compositions have been studied for infrared applications. Composit...
Solid electrolytes based on chalcogenide glasses have been one of the most promising candidates for ...
Performance of any sensor in a nuclear reactor involves reliable operation under a harsh environment...
Research on phase change materials is predominantly focused on their application as memory devices o...
This dissertation prompts on the research and development of a new real-time, reusable, and reversib...
High temperature sensors capable of operating in harsh environments and providing real-time informat...
Reversible amorphous to crystalline phase transition introduces high contrast in the optical and ele...
We demonstrate a novel chalcogenide glass (ChG)-capped optical fiber temperature sensor capable of o...
Data about gamma radiation induced effects in Ge40Se60 chalcogenide thin films and radiation induced...
Materials inside nuclear reactors are exposed to extreme conditions, which include high temperature,...
For many decades, various radiation detecting material have been extensively researched, to find a b...
Semiconducting chalcogenide glasses are fascinating materials with important applications in phase-c...
International audienceIn the sensor field, chalcogenide glasses are well established membranes or th...
International audienceIn the sensor field, chalcogenide glasses are well stablished membranes or thi...
Chalcogenide glasses of different compositions have been studied for infrared applications. Composit...
Solid electrolytes based on chalcogenide glasses have been one of the most promising candidates for ...
Performance of any sensor in a nuclear reactor involves reliable operation under a harsh environment...
Research on phase change materials is predominantly focused on their application as memory devices o...
This dissertation prompts on the research and development of a new real-time, reusable, and reversib...
High temperature sensors capable of operating in harsh environments and providing real-time informat...
Reversible amorphous to crystalline phase transition introduces high contrast in the optical and ele...
We demonstrate a novel chalcogenide glass (ChG)-capped optical fiber temperature sensor capable of o...
Data about gamma radiation induced effects in Ge40Se60 chalcogenide thin films and radiation induced...
Materials inside nuclear reactors are exposed to extreme conditions, which include high temperature,...
For many decades, various radiation detecting material have been extensively researched, to find a b...
Semiconducting chalcogenide glasses are fascinating materials with important applications in phase-c...
International audienceIn the sensor field, chalcogenide glasses are well established membranes or th...
International audienceIn the sensor field, chalcogenide glasses are well stablished membranes or thi...
Chalcogenide glasses of different compositions have been studied for infrared applications. Composit...
Solid electrolytes based on chalcogenide glasses have been one of the most promising candidates for ...