A passively Q-switched Nd^3+ :YAG laser with corner cube is theoretically and experimentally studied, We analyze the polarization variation in cavity and simulate the peak power, pulse energy and pulse width changed...A passively Q-switched Nd^3+ :YAG laser with corner cube is theoretically and experimentally studied, We analyze the polarization variation in cavity and simulate the peak power, pulse energy and pulse width changed with the rotation angle of corner cube numerically, An experiment is made to verify the theoretical results. With rotating the angle of corner cube about the axis the variation range of peak power is 1,77 MW (from 10.36 to 8.59 MW), and that of pulse energy is 14.9 mJ (from 159.5 to 174.4 mJ), the fluctuation of pulse width is 2.95 ns. The experimental results agree with the theoretical analysis to the extent of variation rules. The most dynamic to static energy ratio of 62.5% is achieved.展开更多
文摘A passively Q-switched Nd^3+ :YAG laser with corner cube is theoretically and experimentally studied, We analyze the polarization variation in cavity and simulate the peak power, pulse energy and pulse width changed with the rotation angle of corner cube numerically, An experiment is made to verify the theoretical results. With rotating the angle of corner cube about the axis the variation range of peak power is 1,77 MW (from 10.36 to 8.59 MW), and that of pulse energy is 14.9 mJ (from 159.5 to 174.4 mJ), the fluctuation of pulse width is 2.95 ns. The experimental results agree with the theoretical analysis to the extent of variation rules. The most dynamic to static energy ratio of 62.5% is achieved.