Title :
Accurate determination of the weak optical absorption of piezoelectric crystals used as capacitive massive bolometers
Author :
Bezançon, F. ; Mangin, J. ; Strimer, P. ; Maglione, M.
Author_Institution :
CNRS, Bourgogne Univ., Dijon, France
fDate :
11/1/2001 12:00:00 AM
Abstract :
The resonant frequency in a piezoelectric crystal is strongly temperature dependent. This physical property may be exploited to measure small overheating of the material induced by a weak optical absorption. A sample of congruent LiNbO3 is exposed to a laser beam, with a wavelength λ chosen inside the transparency window. One of the piezoelectric resonances is selected and used as an internal thermal probe to record both dynamical and steady state overheating induced by the residual absorption k of the material. A bolometer-type equation describing the time dependence of the sample temperature is used to determine k accurately, the capacitance-rather than frequency-being the temperature-sensitive electrical parameter of the resonance
Keywords :
bolometers; light absorption; measurement errors; photocapacitance; photorefractive materials; piezoelectric materials; LiNbO3; accurate determination; bolometer-type equation; capacitive massive bolometers; congruent LiNbO3; internal thermal probe; laser beam; piezoelectric crystal; piezoelectric crystals; piezoelectric resonances; residual absorption; resonant frequency; sample temperature; small overheating; steady state overheating; strongly temperature dependent; temperature-sensitive electrical parameter; time dependence; transparency window; weak optical absorption; Absorption; Crystalline materials; Laser beams; Laser theory; Optical materials; Optical recording; Resonance; Resonant frequency; Temperature dependence; Wavelength measurement;
Journal_Title :
Quantum Electronics, IEEE Journal of
