Abstract
Second harmonic generation (SHG) is a phenomenon observed in nonlinear optics that leads to frequency duplication for a high intensity laser incident on nonlinear crystal using BBO crystal. The SHG yield is achieved when the photons interact with a nonlinear optical material and effectively combine to form new photons with double frequency, and therefore double energy and half wavelength. This paper is concerned with the establishment of an SHG experiment to govern the process of producing half-wavelength laser beam from the input one. The theoretical effort was extended to compute the efficiency by using MATLAB software based on mathematical relationships. The values of the conversion maximum efficiencies, which were computed as a function of the input and output powers of the theoretical computations, were 15.6% and 16% at input and output power values of 0.6 and 0.1, respectively. The experimental results of the laser source of 532nm wavelength (fundamental frequency was 0.563x1015s-1) gave a half wavelength of 266nm (double frequency was 1.126x1015s-1). The conversion efficiencies, computed as a function of the input and output powers of the experimental measurements, were 14.32% and 12.97%, respectively.
Highlights
1- Introduction Nonlinear optics is an important field in physics due to a wide range of recent applications that are related to the propagation of electromagnetic waves
One of the most important physical phenomena in the nonlinear optics is the second harmonic (SH), which is a useful tool to change the wavelength of the laser beam from one value to another
The operation of the proposed experiment begins with switching-on the laser source and optimizing the alignment of both the pinhole and lens to make best focusing inside the crystal, which leads to both fundamental and second harmonic laser beams
Summary
Nonlinear optics is an important field in physics due to a wide range of recent applications that are related to the propagation of electromagnetic waves. التخدد الميدر عالي الكثافة عمى البمهرة غيخ الخطية باستخجام بمهرة وبالتالي، الفهتهنات مع مادة برخية غيخ خطية وتتحج بذكل فعال لتذكيل فهتهنات ججيجة بتخدد مددوج لمتحكم في عسمية إنتاج شعاعSHG يهتم هحا البحث بإنذاء تجخبة.مزاعفة الطاقة ونرف الطهل السهجي يتم تهسيع الجهج الشعخي لحداب الكفاءة. لتقجيخ الشتائج الرحيحة.ليدر بطهل نرف مهجة من السجخلات كانت الكفاءات القرهى لمتحهيل السحدهبة. عمى أساس العلاقات الخياضيةMATLAB باستخجام بخنامج طاقة السجخلات6.6 و6.1 عشج٪ 61 و٪ 6..1 كجالة لقج ارت السجخلات والسخخجات لمحدابات الشعخية ) التخدد الأساسيnm
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