Laser damage studies in nonlinear optical crystal sodium p-nitrophenolate dihydrate

“…Hence, it is obvious that benzophenone crystal has higher LDT than that of KDP crystal. The mechanical hardness of the materials are also plays a vital role in LDT of the crystals grown in different crystallographic orientations [15]. A detailed correlation study between the hardness anisotropy and LDT is in progress and will be published later.…”

Directional growth of organic NLO crystal by different growth methods: A comparative study by means of XRD, HRXRD and laser damage threshold

“…Hence, it is obvious that benzophenone crystal has higher LDT than that of KDP crystal. The mechanical hardness of the materials are also plays a vital role in LDT of the crystals grown in different crystallographic orientations [15]. A detailed correlation study between the hardness anisotropy and LDT is in progress and will be published later.…”

Directional growth of organic NLO crystal by different growth methods: A comparative study by means of XRD, HRXRD and laser damage threshold

“…The dihydrate form of NPNa has NLO activity, but tetrahydrate does not have [11]. Though extensive investigations were carried out on this material [11][12][13][14][15], we are still interested in studying the growth aspects and effect of molar concentration of para nitro phenol of NPNa single crystals in different type of solutions prepared with different molar concentrations of para nitro phenol in sodium hydroxide base.…”

Studies on the growth aspects and characterization of sodium para-nitro phenolate single crystals for nonlinear optical applications

“…In the field of optical technology, efficient second and third order nonlinear optical (TONLO) organic and semi-organic crystals have evoked a huge demand for designing highly tuned devices for laser frequency conversion, optical power limiting, optical modulation, laser alignment, photonics and optical data storage systems [1,2]. Amongst all the thiourea metal complexes, zinc thiourea chloride (ZTC) has been extensively studied in the past decade to enhance its properties so as it could be exploited for distinct NLO driven photonic device applications.…”

Investigation on nonlinear optical and dielectric properties of L-arginine doped ZTC crystal to explore photonic device applications