Optical behaviour of nematic liquid crystal doped with carbon dot in the nonlinear optical regime

•Third order nonlinear optical properties of pure nematic liquid crystal (LC), 5PCH and carbon dot doped LC were studied.•A significant enhancement of nonlinear absorption properties is observed in the doped LC system.•Carbon dot doped LC can be considered as a good candidate for the optical limitin...

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Bibliographic Details
Published in:Optics and laser technology 2020-10, Vol.130, p.106367, Article 106367
Main Authors: Praseetha, K.P, Chandrasekharan, K., Varghese, Soney
Format: Article
Language:English
Subjects:
Absorptivity
Carbon dot
Carbon dots
Constraining
Doping
Liquid crystal
Liquid crystals
Morphology
Nematic crystals
Neodymium lasers
Nonlinear optics
Optical limiters
Optical limiting
Optical properties
Photomicrographs
Semiconductor lasers
Thermal decomposition
YAG lasers
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Summary:•Third order nonlinear optical properties of pure nematic liquid crystal (LC), 5PCH and carbon dot doped LC were studied.•A significant enhancement of nonlinear absorption properties is observed in the doped LC system.•Carbon dot doped LC can be considered as a good candidate for the optical limiting application. We delve into the effect of carbon dot (c-dot) doping at different concentrations (0.1, 0.2, 0.4, and 1 wt%) on the third order nonlinear optical properties of a nematic liquid crystal (NLC). C-dots were synthesized by the thermal decomposition of ammonium citrate salt. The size and morphology of prepared c-dots were confirmed by the TEM micrograph. Nonlinear optical properties of c-dot doped liquid crystal were investigated by the z-scan method using a Q-switched Nd: YAG laser delivering 7 ns pulse at 532 nm wavelength. A phenomenal increase in the nonlinear absorption coefficient, βeff, was observed for 0.2 wt% c-dot doped liquid crystal. There is an enhancement in the value of third order susceptibility, χ(3), of the order of 10 for the doped liquid crystal. An increase in the third order nonlinear optical absorption coefficient implies a better optical limiting characteristic than the pristine LC. The optical limiting threshold value of 0.2 wt% c-dot doped LC is found to be 1.23 J/cm2. We determine for the first time that c-dot doping in NLC leads to a significant improvement of the nonlinear optical properties compared to pure LC. The results indicate that the system under study could be a promising candidate for nonlinear photonic devices and optical limiters.
ISSN:0030-3992
1879-2545
DOI:10.1016/j.optlastec.2020.106367