@prmceam.ac.in
Physics
Prof Ram Meghe College of Engineering and Management, Badnera-Amravati
Non linear optical crystal
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Mohd Anis, G. G. Muley, M. I. Baig, Waseem Ahmed Khan, S. P. Ramteke, and Ehab El Sayed Massoud
Springer Science and Business Media LLC
S.P. Ramteke, G.G. Muley, M.I. Baig, A. Ibrahim, M. Aslam Manthrammel, Khursheed Muzammil, Mohd. Shkir, and Mohd Anis
Elsevier BV
M. I. Baig, S. S. Hussaini, H. Elhosiny Ali, and Mohd Anis
Springer Science and Business Media LLC
Mohd Anis, S.M. Azher, M.D. Shirsat, Mohammed Imran Anees, Mohammed Mukhtar, M.I. Baig, and H.H. Somaily
Elsevier BV
Mohd Anis, S. S. Hussaini, M. I. Baig, Mohammed Imran Anis, and Ehab El Sayed Massoud
Springer Science and Business Media LLC
M. I. Baig, Mohd Anis, M. D. Shirsat, H. H. Somaily, and S. S. Hussaini
Springer Science and Business Media LLC
S.P. Ramteke, S.M. Azhar, G.G. Muley, M.I. Baig, A.M. Alshehri, H.H. Somaily, and Mohd Anis
Elsevier BV
M.I. Baig, Mohd Anis, M.D. Shirsat, A.M. Alshehri, H.H. Somaily, and S.S. Hussaini
Elsevier BV
Mohd Anis, M.I. Baig, A.M. Alshehri, and H.H. Somaily
Elsevier BV
Mohd Anis, Mohd Shkir, S. AlFaify, M.I. Baig, A.M. Alshehri, and H. Algarni
Elsevier BV
M.I. Baig, Mohd Anis, M.D. Shirsat, S.S. Hussaini, and H. Algarni
Elsevier BV
M.I. Baig, Mohd Anis, H. Algarni, M.D. Shirsat, and S.S. Hussaini
Elsevier BV
S.P. Ramteke, S. Kalainathan, Mohd Anis, G.G. Muley, M.I. Baig, and H. Algarni
Elsevier BV
S.P. Ramteke, Mohd Anis, M.I. Baig, H. Algarni, and G.G. Muley
Elsevier BV
S.M. Azhar, Mohd Anis, G. Rabbani, M.D. Shirsat, M.I. Baig, S.S. Hussaini, S. AlFaify, and M. Ajmal Khan
Elsevier BV
Mohd Anis, M.I. Baig, G.G. Muley, S. AlFaify, and M.Ajmal Khan
Elsevier BV
S. M. Azhar, S. S. Hussaini, M. D. Shirsat, G. Rabbani, Mohd Shkir, S. Alfaify, H. A. Ghramh, M. I. Baig, and Mohd Anis
Informa UK Limited
Abstract A novel tris (thiourea) potassium barium sulphate (TTPBS) complex has been synthesized and the complex formation was confirmed by means of spectroscopic analysis. The TTPBS single crystal has been grown by most commercial slow solvent evaporation method. The single crystal X-ray diffraction technique has been employed to confirm the crystal structure and unit cell dimensions of TTPBS crystal. The functional groups of grown crystal have been identified by means of Fourier transform infrared analysis. The constituent elements of title crystal have been determined by means of EDS technique. In UV–visible studies the TTPBS crystal has been testified within 200–900 nm to examine the optical transparency and determine the optical band gap. The frequency conversion efficiency of TTPBS crystal has been assessed by means of Kurtz-Perry test. He–Ne laser assisted Z-scan technique has been employed to ascertain the third order nonlinear optical (TONLO) refraction and absorption effect in TTPBS crystal. The magnitude of TONLO refractive index (n 2), absorption coefficient (β) and susceptibility (χ3) of title crystal has been illustrated using the Z-scan data. The Nd:YAG laser facilitated surface damage threshold of TTPBS crystal has been determined and it is found to be in MW/cm2 range.
Mohd Anis, G.G. Muley, M.I. Baig, G. Rabbani, H.A. Ghramh, and S.P. Ramteke
Elsevier BV
Mohd Anis, M.I. Baig, G.G. Muley, G. Rabbani, M.D. Shirsat, Mohd. Shkir, and H.A. Ghramh
Elsevier BV
Imran Khan, S. Kalainathan, M.I. Baig, Mohd Shkir, S. Alfaify, H.A. Ghramh, and Mohd Anis
Walter de Gruyter GmbH
Abstract Present investigation has been started to perform the comparative study of pure and glycine doped KH2PO4 (KDP) single crystals grown by most commercial slow solvent evaporation technique. The grown crystals were subjected to single crystal X-ray diffraction analysis to determine their structural parameters. The linear optical studies of pure and glycine doped KDP crystal have been undertaken within 200 nm to 1100 nm wavelength range by means of UV-Vis studies. The enhancement in second harmonic generation (SHG) efficiency of glycine doped KDP crystal has been determined using a standard Kurtz-Perry powder test. The dielectric measurements have been carried out to explore the impact of glycine dopant on dielectric constant and dielectric loss of KDP crystal. The surface growth habitat and etch pit density of glycine doped KDP crystal have been evaluated using the results of microscopic etching studies. In light of obtained results the suitability of glycine doped KDP crystal for device applications has been discussed.
Mohd Anis, M. S. Pandian, M. I. Baig, P. Ramasamy, and G. G. Muley
Informa UK Limited
Abstract Optical quality single crystals of α- and γ-polymorph of glycine with respective dimension of 16 × 04 × 04 and 16 × 14 × 08 mm3 have been grown from slow solvent evaporation technique. The single crystal X-ray diffraction (XRD) study has been carried out to confirm the cell parameters, crystal structure and space group of grown polymorphs of glycine crystal. The powder XRD analysis has been performed to investigate the crystalline nature of γ-glycine crystal. The UV-visible spectral analysis has been carried out in the range of 200–900 nm to determine the optical transmittance and band gap of grown crystals. In Kurtz-Perry test, the second harmonic generation efficiency of γ-glycine crystal is found to be 1.4 times higher than KDP crystal material. The emission profile and electronic purity of grown crystals has been examined by means of photoluminescence study. The differential thermal analysis of grown crystals has been undertaken to determine the melting point of grown polymorphs of glycine crystal. The temperature dependent behavior of dielectric parameters of grown crystals has been comparatively investigated within 35–90 °C by means of dielectric analysis.
Mohd Anis, Mohd Shkir, M.I. Baig, S.P. Ramteke, G.G. Muley, S. AlFaify, and H.A. Ghramh
Elsevier BV
S.P. Ramteke, M.I. Baig, Mohd Shkir, S. Kalainathan, M.D. Shirsat, G.G. Muley, and Mohd Anis
Elsevier BV
S.M. Azhar, G. Rabbani, M.D. Shirsat, S.S. Hussaini, M.I. Baig, H.A. Ghramh, and Mohd Anis
Elsevier BV
Mohd Anis, M I Baig, S S Hussaini, M D Shirsat, Mohd Shkir, and H A Ghramh
IOP Publishing
In the current investigation, L -proline cadmium chloride monohydrate (LPCC) single crystal is grown by a slow solvent evaporation technique to identify its credibility for nonlinear optical device applications. The constituent elements of LPCC crystal are determined by the energy dispersive spectroscopic (EDS) technique. The single crystal x-ray diffraction technique is used to determine the structural dimensions of LPCC crystal. The UV-visible studies are carried out within a wavelength range of 200 nm–1100 nm to determine the optical transmittance of LPCC crystal. The linear optical parameters of LPCC crystal are evaluated using the transmittance data to discuss its importance for distinct optical devices. The Nd:YAG laser assisted Kurtz–Perry test is carried out to determine the enhancement in second harmonic generation efficiency of LPCC crystal with reference to KDP crystal. The Z-scan technique is employed to assess the third order nonlinear optical (TONLO) properties of LPCC crystal at 632.8 nm. The Z-scan data are utilized to evaluate the TONLO refraction, absorption and susceptibility of LPCC crystal. The color oriented luminescence behavior of LPCC crystal is investigated within a spectral range of 350 nm–700 nm. The dependence of dielectric constant and dielectric loss on temperature and frequency is evaluated through the dielectric measurement studies.