|
Lock-in thermo-electric detector arrays: thermal cross-talk
prediction by non-linear model This publication appears in: Journal of Physics D: Applied Physics Authors: W. Vandermeiren, J. Stiens, G. Shkerdin, C. De Tandt and R. Vounckx Volume: 44 Pages: 1-6 Publication Date: Feb. 2011
Abstract: A non-linear numerical finite element method (FEM) model of a thermo-electric focal plane array (FPA) detector is presented here. Laser induced thermo-voltage profiles tend to spread out for small lock-in frequencies as the thermal diffusion length is inversely proportional to the square-root of the lock in frequency. This leads to a frequency and spatial dependent thermal cross-talk level. In this paper we investigate the thermal cross-talk level quantitatively in function of spatial coordinates and lock-in frequency. Experimental data are provided at an optical power level of 1W. The impact of non-linear thermal parameters as the temperature dependence of the absorption coefficient, the thermal conductivity, the heat transfer coefficient and the Seebeck coefficient on the thermal profile and cross-talk level generated inside the detector material are studied in detail. Heat losses that are included in the model are conduction and laminar free convection. The relative importance of the above mentioned non linear thermal parameters in terms of thermal cross-talk for steady-state solutions are discussed as well.
|
