Dependence of Refractive Index Temperature Coefficient on the Thermal Expansivity of Liquids

“…Fig. 4 illustrates the relative error between the present experimental data (exp) and the literature (calc) [12,19,20]. The good concordance between the experimental data and the model from Table 2 Experimental results (the slope (@n G /@T) P , the intercept at T = 0°C a and standard error r of the slope between data and the linear regression) and models from literature (Eqs.…”

A thickness measurement technique based on low-coherence interferometry applied to a liquid film with thermal gradient

“…Fig. 4 illustrates the relative error between the present experimental data (exp) and the literature (calc) [12,19,20]. The good concordance between the experimental data and the model from Table 2 Experimental results (the slope (@n G /@T) P , the intercept at T = 0°C a and standard error r of the slope between data and the linear regression) and models from literature (Eqs.…”

A thickness measurement technique based on low-coherence interferometry applied to a liquid film with thermal gradient

“…(3) would be obtained from Eq. (12). Because the refractive index increases with frequency in the optical region, the polarizability increases with frequency of the incident light.…”

Study of the structure and refractive parameters of diethylamine and triethylamine

“…A higher order Cauchy equation involving more constants may be used for greater accuracy. The refractive index gradients with respect to temperature and concentration are determined using MurphyeAlpert [340], and LorentzeLorenz relationships, respectively.…”

Imaging techniques for mapping solution parameters, growth rate, and surface features during the growth of crystals from solution