Abstract
In this paper, a visual rapid technique is presented for the sign identification of nonlinear refractive index of colloidal nanoparticles based on non-scanning Moiré deflectometry technique. In this method two lasers are used, one as a pump laser beam which causes thermal nonlinear effects in the sample and the second one is used as a probe beam laser which allows us to monitor these effects by Moiré deflectometry technique. The gradient of the nonlinear refractive index produced by the interaction of the pump laser, generates a cylindrical lens in the sample. The concave and convex lenses are produced as a result of negative and positive nonlinear refractive index respectively. Geometrical and experimental investigations show the Moiré fringes are deflected in two different directions by these lenses. By observing the shape of deflected moiré fringes, we can determine the sign of nonlinear refractive index and there will be no need for calibration or complicated calculations. This technique was applied for identification of nonlinear refractive index of Au and Tio2 colloidal nanoparticles, under 47 mW second harmonic of Nd:YAG laser illumination. The sign of nonlinear refractive index of colloidal Au and Tio2 nanoparticles were observed to be negative and positive respectively.
Highlights
KoohianPlasma Physics Research Center, Science and Research branch, Islamic Azad University (IAU), Tehran, Iran Optical Measurement Central Lab, Amirkabir University of Technology, Tehran, Iran
The measurement of nonlinear optical parameters of colloidal metallic nanoparticles has recently drawn a lot of attentions because of their fast nonlinear optical response and high nonlinearity ability [1]
Interaction of the pump laser and colloidal nanoparticles will result in thermal nonlinear effect and this in turn will change the refractive index of interaction zone is changed
Summary
Plasma Physics Research Center, Science and Research branch, Islamic Azad University (IAU), Tehran, Iran Optical Measurement Central Lab, Amirkabir University of Technology, Tehran, Iran. A visual rapid technique is presented for the sign identification of nonlinear refractive index of colloidal nanoparticles based on non-scanning Moiré deflectometry technique In this method two lasers are used, one as a pump laser beam which causes thermal nonlinear effects in the sample and the second one is used as a probe beam laser which allows us to monitor these effects by Moiré deflectometry technique. By observing the shape of deflected moiré fringes, we can determine the sign of nonlinear refractive index and there will be no need for calibration or complicated calculations. This technique was applied for identification of nonlinear refractive index of Au and Tio colloidal nanoparticles, under 47 mW second harmonic of Nd:YAG laser illumination.
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