|
Lasers
Simulation of an intracavity Q-switched optical parametric oscillator using rate equations
A. Keshavarz, S. Samimi Department of Physics, Shiraz University of Technology, Iran
Abstract:
Based on rate equations we have refined the model of an intracavity Q-switched optical parametric oscillator (IOPO) by taking into account the influence of self-Raman stimulated scattering. The rate equations are solved and analysed in the plane-wave approximation for a Gaussian spatial beam distribution profile under various conditions. The spatial rate equations are also solved numerically for a beam with a field distribution of the TEM00 mode. The numerical analysis shows that stimulated self-Raman scattering leads to a decrease in the output signal power and an increase in the signal pulse width. This model allows one to predict that the output signal power can be increased with increasing ratio of Raman to fundamental photon lifetimes. This suggests a practical method for determining the self-Raman gain coefficient experimentally. In addition, a multi-pulse process for the signal beam of the IOPO can be regenerated by the presented model. However, in comparison with the previous research, the presented model is more accurate and allows one to design and optimise single-resonator IOPOs.
Keywords:
intracavity optical parametric oscillator, self-Raman stimulated scattering.
Received: 26.09.2016
Citation:
A. Keshavarz, S. Samimi, “Simulation of an intracavity Q-switched optical parametric oscillator using rate equations”, Kvantovaya Elektronika, 47:3 (2017), 280–284 [Quantum Electron., 47:3 (2017), 280–284]
Linking options:
https://www.mathnet.ru/eng/qe16562 https://www.mathnet.ru/eng/qe/v47/i3/p280
|
|