Nibu, A George; Vallabhan, C P G; Nampoori, V P N; George, A K; Radhakrishnan, P(Society of Photo-Optical Instrumentation Engineers, 2001)
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Abstract:
We report the use of an open photoacoustic cell configuration
for the evaluation of thermal effusivity of liquid crystals. Initially, the
method is calibrated using water and glycerol as transparent liquid
samples, and the role of thermal conductivity of these liquids on the
photoacoustic signal amplitude is discussed. To demonstrate the application
of the present method for the evaluation of thermal effusivity of
liquid crystals, we have used certain multicomponent nematic liquid crystal
mixtures, namely BL001, BL002, BL032, and BL035. Each of these
liquid crystal mixtures contains four to nine components and are primarily
based on the cyanobiphenyl structure. The measured values of thermal
effusivity of BL001 and BL002 were found to be almost the same, but
differ from those of BL032 and BL035, which implies a difference in
composition of the latter two from the former two mixtures.
Riju, C Issac; Harilal, S S; Geetha K, Varier; Bindhu, C V; Nampoori, V P N; Vallabhan, C P G(Society of Photo-Optical Instrumentation Engineers, February , 1997)
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Abstract:
Pulsed photoacoustic studies in solutions of C70 in toluene are made using the 532-nm radiation from a frequency-doubled Nd:YAG laser. It is found that contrary to expectation, there is no photoacoustic (PA) signal enhancement in the power-limiting range of laser fluences. Instead, the PA signal tends to saturate during optical power-limiting phenomenon. This could be due to the enhanced optical absorption from the photoexcited state and hence the depletion of the ground-state population. PA measurements also ruled out the possibility of multiphoton absorption in the C70 solution. We demonstrate that the nonlinear absorption leading to optical limiting is mainly due to reverse saturable absorption.
Nibu, A George; Vallabhan, C P G; Nampoori, V P N; Radhakrishnan, P(Society of Photo-Optical Instrumentation Engineers, January , 2002)
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Abstract:
We discuss an open photoacoustic cell study on sulfer-doped
n-type InP wafer. The thermal diffusivity of the sample is evaluated from
the phase data associated with the photoacoustic signal as a function of
the modulation frequency under heat transmission configuration. Analysis
is made on the basis of the Rosencwaig-Gersho theory and the results
are compared with those from earlier reported photoacoustic studies
of semiconductors. Our investigation clearly indicates that the
instantaneous thermalization process is the major heat diffusion mechanism
responsible for the photoacoustic signal generation in an InP
sample.