Synthesis, Growth, and Characterization of Structural, Optical, and Nonlinear Optical Properties of L‐Proline Tartrate Added by Lanthanum Chloride Single Crystal

• Published in: Advances in materials science and engineering Vol. 2024; no. 1
• Main Authors: Alemu, Dessale, Abza, Tizazu, Peter, M. Esthaku, Negash, Micheal
• Format: Journal Article
• Language: English
• Published: New York John Wiley & Sons, Inc 01.01.2024; Wiley
• Subjects: Amino acids; Chloride; Crystal growth; Crystal structure; Energy dispersive X ray analysis; Energy gap; KDP crystals; Lanthanum chlorides; Lasers; Nonlinear optics; Optical properties; Optics; Proline; Radiation; Room temperature; Second harmonic generation; Signal processing; Single crystals; Spectrum analysis; Structural analysis; X ray analysis
• ISSN: 1687-8434; 1687-8442
• DOI: 10.1155/2024/3349352

L‐proline tartrate (LPT), 1 and 2 mol% of lanthanum chloride‐ (LaCl 3 ‐) doped LPT single crystals have been synthesized and grown using a slow evaporation solution method at room temperature. The crystals have undergone different characterization studies to test their suitability for device fabrication. The single crystal X‐ray diffraction studies have revealed that both 1 and 2 mol% of LaCl 3 ‐doped LPT single crystals have been crystalized monoclinic crystal structure and space group P2 1 . The UV‐Vis‐NIR spectrum analysis has shown that pure, 1, and 2 mol% of LaCl 3 ‐doped LPT single crystals have good optical transparency in the entire visible and near IR region. The optical band gap energy for pure, 1 and 2 mol% of LaCl 3 ‐doped LPT single crystals to be 4.9, 5, and 5.1 eV, respectively. The energy dispersive X‐ray analysis confirmed that LaCl 3 has been incorporated into LPT crystal. The second harmonic generation (SHG) efficiency for 1 and 2 mol% of LaCl 3 ‐doped LPT single crystals has been tested and found to be 1.27 and 1.6 times greater than that of the reference KDP crystal, respectively.