Add to ORKGRemote cryogenic temperature measurements can be made by inducing fluorescence in phosphors with temperature-dependent emissions and measuring the emission lifetimes. The thermographic phosphor technique can be used for making precision, noncontact, cryogenic-temperature measurements in electrically hostile environments, such as high dc electric or magnetic fields. The National Aeronautics and Space Administration is interested in using these thermographic phosphors for mapping hot spots on cryogenic tank walls. Europium-doped lanthanum oxysulfide (La2O2S:Eu) and magnesium fluorogermanate doped with manganese (Mg4FGeO6:Mn) are suitable for low-temperature surface thermometry. Several emission lines, excited by a 337-nm ultraviolet laser, pr...
The possibility of using single-crystals of thermographic phosphors in a new realization of the degr...
Phosphor thermometry for surface temperature measurements has become an established remote thermomet...
We demonstrate the feasibility of laser-induced phosphorescence thermography for gas-phase temperatu...
Manufacturing and other industrial processes often require monitoring and control of temperature. Th...
The use of phosphor thermography for noncontact temperature measurements in harsh environments has b...
Temperature is not only a fundamental aspect of everyday life, but it is also an essential metric fo...
Phosphor thermometry has been successfully used in a number of applications ranging from turbo-machi...
Phosphor thermometry has been used for many years for non-contact temperature measurements. Aerospac...
The spectral emission from thermographic phosphors in free flow and its dependence of laser energy p...
We focus on the development of a remote temperature sensing technology, i.e., an optical laser-based...
Phosphor thermometry has been used for many years for non-contact temperature measurements in hostil...
For many years, phosphor thermometry has been used for non-contact measurements in hostile high temp...
Simultaneous point measurements of gas velocity and temperature were recently demonstrated using the...
A technique based on remote measurements of surface temperature in connection to fires is presented....
Laser induced fluorescence (LIF) techniques for containerless study of high temperature processes an...
The possibility of using single-crystals of thermographic phosphors in a new realization of the degr...
Phosphor thermometry for surface temperature measurements has become an established remote thermomet...
We demonstrate the feasibility of laser-induced phosphorescence thermography for gas-phase temperatu...
Manufacturing and other industrial processes often require monitoring and control of temperature. Th...
The use of phosphor thermography for noncontact temperature measurements in harsh environments has b...
Temperature is not only a fundamental aspect of everyday life, but it is also an essential metric fo...
Phosphor thermometry has been successfully used in a number of applications ranging from turbo-machi...
Phosphor thermometry has been used for many years for non-contact temperature measurements. Aerospac...
The spectral emission from thermographic phosphors in free flow and its dependence of laser energy p...
We focus on the development of a remote temperature sensing technology, i.e., an optical laser-based...
Phosphor thermometry has been used for many years for non-contact temperature measurements in hostil...
For many years, phosphor thermometry has been used for non-contact measurements in hostile high temp...
Simultaneous point measurements of gas velocity and temperature were recently demonstrated using the...
A technique based on remote measurements of surface temperature in connection to fires is presented....
Laser induced fluorescence (LIF) techniques for containerless study of high temperature processes an...
The possibility of using single-crystals of thermographic phosphors in a new realization of the degr...
Phosphor thermometry for surface temperature measurements has become an established remote thermomet...
We demonstrate the feasibility of laser-induced phosphorescence thermography for gas-phase temperatu...