Low temperature physics & cryogenic experiments
A world of Wonderful learning and experimenting
“You are the master of your own destiny. No one and nothing can come between you and your destiny except you. Take the destiny by the horns and have fun.”
– Kung Fu Panda
Projects and experiments
Non-contact eddy current based RRR characterization of SRF Cavities
To develop non-contact Residual Resistivity Ratio (RRR) estimation techniques based on eddy current principles for Superconducting Radio Frequency (SRF) cavities
Studies on temperature dependant inductance characteristics of Planar MLI
To study the sudden change in temperature dependant inductance characteristics of planar multi-layer inductors when they are cooled to 4.2 K.
Design and Development of planar inductor based proximity sensor operating down to 4.2K
To develop a noval planar inductor based cryogeni proximity sensor with integrated cold electronics signal conditioning elements
Design and Development of planar inductor array angular position sensor for cryogenics
To develop a noval planar inductor array based cryogenic angular position sensor with integrated cold electronics singal conditioning elements
Development of a calibration system for calibrating LOX and LH2 liquid level sensors for ISRO
Develop a calibration facility to caliberate the cryogenic level sensors for LOX and LH2 used in GSLV cryogenic stages
Development of a calibration system for calibrating PT-100, PT-500 and PT-1000 temperature sensors for ISRO
Develop a calibration facility to calibrate the cryogenic temperature sensors used by ISRO
Studies on cold electronics circuits for operation in space robotics and quantum computers
Develop different circuits that are capable of operating at temperatures down to 4.2 K
Developing different cryogenic level sensors like HTS based, Diode array based etc.
Develop a set of level sensors including HTS based, Diode array based and capacitance based and compare its performance.