摘要
用单束毫瓦级的632.8nm He-Ne激光入射到掺Mn的KNSBN晶体中,观察到强烈的背向散射,同时观察到一种与背向散射相联系的光学二极管效应。在一定范围内,光学二极管的时间响应常数τ与晶体表面的入射光强成反比,以K_9玻璃片作反馈镜,可将τ降低一个数量级。已取得τ=1.5s及大于15.3的正、反向透过率比。对实验结果给出理论解释。
When a He-Ne laser beam (632.8 nm) with the power of milliwatts or submilliwatts penetrates through a Mn doped KNSBN crystal, a phenomenon of strong backward scattering is observed. At the same time, an optical diode effect which is associated with the backward scatering is also observed. In a certain range, the response time constant T of the optical diode effect is inversely propotional to the incident intensity on the surface of the crystal. The τ is decreased by one order of magnititude when a K9 glass plate which serves as a feedback mirror is introduced. A time constant of 1.5s and a ratio of the forward transmissivty to the backward one, which is greater than 15.3, have been obtained. A theoretical explanation is given on the basis of the experimental results
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
1992年第10期1706-1714,共9页
Acta Physica Sinica
