6533b82cfe1ef96bd128ea93

RESEARCH PRODUCT

Modeling of the Low-Frequency Noise in Thermal Lens Spectrometry

Yolanda Martín-bioscaClaude RozéGuillermo Ramis-ramos

subject

Chemistrybusiness.industryInfrasoundNatural frequencyGeneral ChemistryNoise (electronics)law.inventionLens (optics)OpticslawThermalTransient (oscillation)businessBeam (structure)Harmonic oscillator

description

The low-frequency noise observed in thermal lens spectrometry (TLS) can be modeled by assuming that the heated region, constituted by the thermal lens gradient and associated convective stream, behaves as a weakly damped harmonic oscillator with a natural frequency, vo, which is forced to move at an externally imposed pump frequency, vp. Out-of-phase lower-frequency oscillations of the TLS signal can be produced both by transient events, such as the beginning of the TLS experiment and small changes in the pump beam stability, and by drift of boundary conditions, such as the temperature of the surroundings. A model is developed and checked using 1-(2-pyridylazo)-2-napthol (PAN) solutions in silicone oil. Consequences of analytical interest are drawn; e.g., the signal-to-noise ratio of the TLS experiments is improved by pumping at the resonance frequency, where vp = vo.

yearjournalcountryeditionlanguage
1998-01-01Israel Journal of Chemistry
https://doi.org/10.1002/ijch.199800018