Increasing the conversion efficiency of KTP crystal using the pump-power technique
Other Title(s)
زيادة كفاءة التحويل لبلورة ال KTP باستخدام تقنية الضخ- المجس
Joint Authors
Rustum, Russul Khalil
Jamal, Raid Kamil
Source
Issue
Vol. 18, Issue 44 (31 Mar. 2020), pp.40-49, 10 p.
Publisher
University of Baghdad College of Science
Publication Date
2020-03-31
Country of Publication
Iraq
No. of Pages
10
Main Subjects
Topics
Abstract EN
In this study, the effect of pumping power on the conversion efficiency of nonlinear crystal (KTP) was investigated using laser pump-power technique.
The results showed that the higher the pumping power values, the greater the conversion efficiency (η) and, as the crystal thickness increases within limitations, the energy conversion efficiency increases at delay time of (0.333 ns) and at room temperature.
Efficiency of 80 % at length of KTP crystal (L = 1.75 X 10-3 m) and Pin = 28 MW, and also, compare the experimental results with numerical results by using MATLAB program.
The contribution of this technique is measuring ultrafast phenomena inside matter such as the movement of atoms or electron excitations.
American Psychological Association (APA)
Jamal, Raid Kamil& Rustum, Russul Khalil. 2020. Increasing the conversion efficiency of KTP crystal using the pump-power technique. Iraqi Journal of Physics،Vol. 18, no. 44, pp.40-49.
https://search.emarefa.net/detail/BIM-947554
Modern Language Association (MLA)
Jamal, Raid Kamil& Rustum, Russul Khalil. Increasing the conversion efficiency of KTP crystal using the pump-power technique. Iraqi Journal of Physics Vol. 18, no. 44 (2020), pp.40-49.
https://search.emarefa.net/detail/BIM-947554
American Medical Association (AMA)
Jamal, Raid Kamil& Rustum, Russul Khalil. Increasing the conversion efficiency of KTP crystal using the pump-power technique. Iraqi Journal of Physics. 2020. Vol. 18, no. 44, pp.40-49.
https://search.emarefa.net/detail/BIM-947554
Data Type
Journal Articles
Language
English
Notes
Includes bibliographical references : p. 48-49
Record ID
BIM-947554