Peer-Reviewed Journal Details
Mandatory Fields
Riza, Nabeel A.,Arain, Muzammil A.
2006
December
IEEE Photonics Technology Letters
Cryogenic temperature measurement using silicon carbide-based wireless optical sensor
Validated
()
Optional Fields
18
21-2421-24
2599
26012599
Demonstrated is a novel silicon carbide (SiC)-based wireless optical sensor for cryogenic temperatures. The proposed design uses two wavelength processing and free-space optical beam interrogation of a remoted single crystal SiC chip placed in the cryogenic vacuum chamber to enable wireless temperature measurement. Experimental temperature sensing using the proposed sensor is reported from near room temperature to 100 K with an estimated 0.2 K resolution. The sensor uses eye safe laser wavelengths at 1550 and 1540 run to implement the signal processing to determine the temperature value.Demonstrated is a novel silicon carbide (SiC)-based wireless optical sensor for cryogenic temperatures. The proposed design uses two wavelength processing and free-space optical beam interrogation of a remoted single crystal SiC chip placed in the cryogenic vacuum chamber to enable wireless temperature measurement. Experimental temperature sensing using the proposed sensor is reported from near room temperature to 100 K with an estimated 0.2 K resolution. The sensor uses eye safe laser wavelengths at 1550 and 1540 run to implement the signal processing to determine the temperature value.
1041-11351041-1135
://WOS:000243173300134://WOS:000243173300134
Grant Details