Light control through a nonlinear lensing effect in a colloid of biosynthesized Gold Nanoparticles

TL;DR

This study demonstrates that biosynthesized gold nanoparticle colloids exhibit nonlinear lensing effects capable of controlling light beams, with potential applications in photonics due to their thermal nonlinear response and fast response time.

Contribution

It introduces a novel use of biosynthesized gold nanoparticle colloids for light control via nonlinear lensing effects, highlighting their fast thermal nonlinear response and beam steering capabilities.

Findings

Hydroalcoholic extract shows highest nonlinear response.

Self-collimated beams can be generated with low-power lasers.

Material response time is less than 0.07 seconds.

Abstract

Biosynthesis of four samples of colloidal suspensions of gold nanoparticles is achieved using hydroalcoholic extract and three different separated compounds of the plant Bacopa procumbens. The nonlinear optical properties of each sample are characterized with the Z-scan technique. In all cases, the Z-scan curves indicate a negative or self-defocusing response, which is mainly attributed to thermal effects. Among the four samples, the hydroalcoholic extract was noted to have the highest nonlinear optical response and was selected to demonstrate the formation of self-collimated beams (SCBs). This kind of beams are obtained when a convergent CW laser, with only few tens of milliwatts of optical power, is introduced into the sample and induces a negative-lens effect that shifts the focal spot forward. As a result, the otherwise highly focused beam propagate with little divergence over lengths of up to 10mm. Moreover, an SCB is capable of controlling and steering a weak probe beam of a different wavelength, since the probe experiences the lensing induced by the pump. Noteworthy, the response time of the material was found to be less than 0.07s, which makes it a plausible candidate for photonic applications.