Linear and nonlinear optical investigation of l -arginium adipate single crystal for photonic applications
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Linear and nonlinear optical investigation of l‑arginium adipate single crystal for photonic applications P. Sangeetha1 · M. Nageshwari2 · C. Rathika Thaya Kumari3 · S. Sudha4 · P. Jayaprakash5 · M. Lydia Caroline6 · G. Mathubala7 · G. Vinitha8 · A. Manikandan7 Received: 20 May 2020 / Accepted: 13 July 2020 © Springer Science+Business Media, LLC, part of Springer Nature 2020
Abstract The l-arginium adipate (LAA) single crystal, is an organic component material efficiently grown by a simple technique called slow evaporation solution technique at ambient temperature. The monoclinic crystal system with the space group of P21 is exhibited for LAA from the X-ray diffraction analysis. FTIR spectroscopy that designates different molecular vibrations existing in LAA crystal was studied. The absorbance spectrum from the UV profile proclaims very less cut-off wavelength down to 206 nm and its wide optical band gap is also calculated. The perfection of the crystal is shown from Urbach’s energy determination. The extent of polarization phenomena was examined for selected temperatures at dissimilar frequencies from the dielectric studies. The double harmonic output and triple-order nonlinear response for LAA are inspected from KurtzPerry and Z-scan technique, respectively.
1 Introduction The focus on the development of new nonlinear optical crystals and its designing technology creates a good exposure in the domain of photonics and optoelectronics. Young scientific researchers explore this technique for assembling suitable materials among various applications for diverse * M. Lydia Caroline [email protected] 1
Department of Physics, Thiruvalluvar University College of Arts & Science, Thennangur Village, Vandavasi, Tamil Nadu, India
2
Department of Physics, Peri Institute of Technology, Chennai, Tamil Nadu, India
3
Department of Physics, Bharath Institute of Higher Education and Research, Chennai, Tamil Nadu, India
4
Department of Physics, Arignar Anna Govt. Arts College, Cheyyar, Tamil Nadu, India
5
Department of Physics, St. Joseph’s Institute of Technology, OMR, Chennai, TamilNadu, India
6
Department of Physics, Dr. Ambedkar Govt. Arts College, Vyasarpadi, Tamil Nadu, India
7
Department of Chemistry, Bharath Institute of Higher Education and Research, Chennai, Tamil Nadu, India
8
Department of Physics, School of Advanced Sciences, VIT, Chennai, Tamil Nadu, India
device fabrication. The NLO third-order material with feeble nonlinear absorption and durable refraction has extensive courtesy because of their potential use in signal processing. The existence of strong nonlinear absorption enables the optical limiting property of an organic crystals [1–3]. The potentialities of different organic and inorganic materials with good nonlinear optical properties involve its application over vast image and information processing, terahertz wave generation, optoelectronic modulators etc. through engineering procedures [2, 3]. Mostly, primary amines act as strong bases among carboxylic acid groups be
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