Optical nonlinearities in chemically synthesized and femtosecond laser fabricated gold nanoparticle colloidal solutions

• Published in: Optics and laser technology Vol. 139; p. 107008
• Main Authors: Priyadarshini, Mani, Acharyya, Jitendra Nath, Mahajan, Sumeet, Vijaya Prakash, G.
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 01.07.2021; Elsevier BV
• Subjects: Ablation; Chemical synthesis; Constraining; Femtosecond pulses; Gold; Gold nanoparticles; Laser ablation; Lasers; Nanoparticles; Nonlinear absorption; Nonlinear refraction; Nonlinearity; Photon absorption; Photons; Refraction; Refractivity; Saturation; Saturation of absorption; Z-scan technique; Z-scan technique; Nonlinear absorption; Nonlinear refraction; Gold nanoparticles; Saturation of absorption
• ISSN: 0030-3992; 1879-2545
• DOI: 10.1016/j.optlastec.2021.107008

•Comparative nonlinear optical studies of gold NPs obtained from different methods.•Established methodology of Au NPs from chemical synthesis and ultrafast laser ablation.•Distinct crossover nonlinearities from saturation to reverse saturation absorption.•Asymmetry in nonlinear refraction behaviour dominated by strong nonlinear absorption.•Strong nonlinear absorption suggests ultrafast optical limiting applications. Gold nanoparticles prepared by two different methodologies, wet-chemical- citrate reduction synthesis and femtosecond laser ablation, are studied for optical nonlinearities. Femtosecond laser pulses at 800 nm wavelength are employed to study the optical nonlinear refraction and absorption through the Z-scan technique, up to 23.37 GW/cm2 laser intensities. Here we demonstrate the distinct crossovers of nonlinear absorption, from varieties of nonlinear absorption mechanisms, saturation of linear absorption, reverse saturation of absorption. The reverse saturation of absorption is primarily contributed by an initial two-photon absorption followed by three-photon absorption process. We could observe that in laser-ablated gold nanoparticles, the transition from saturable to reverse saturable absorption takes place at a lower excitation threshold compared to that in chemically produced samples. The nonlinear refraction data depicted a pronounced asymmetry for chemically synthesized samples, which could possibly be due to the dominance of absorption phenomenon. We observed that nonlinear refractive index of chemically produced samples is higher by one order of magnitude compared to those produced by laser ablation. An appealing application in optical limiting is studied, and we see that the laser-produced samples, due to their strong nonlinear absorption, serve as a suitable choice for the optical limiting application. This study provides an insight into the selection of synthesis method towards their optimized utilization in nonlinear optical domain given that we achieve particle size tunability in the two methods.