faraday rotation meaning in Chinese
磁致旋光
法拉第旋体
法拉第旋转
Examples
- Cerium - substituted yttrium iron garnets ( cexy3 - xfe5o12 , ce : yig ) , the promising materials for magneto - optical ( mo ) application , have been widely attended for great improvement on faraday rotation due to the substitution of ce3 + ions to y3 + ions . however , studies on synthesis of ce : yig were restrained by two factors : the first was radium of ce3 + ions were much larger than that of y3 + ions , the second was ce3 + ions tended to transfer to ce4 + ions which were more chemically stable
掺铈钇铁石榴石( ce - substitutedyttriumirongarnets ,简称ce : yig )中,由于ce ~ ( 3 + )离子对y ~ ( 3 + )离子的取代,将大大提高钇铁石榴石( yttriumirongarnets ,简称yig )磁光材料的法拉第旋转角和磁光优值,使其能够广泛应用于激光和光通信等高技术领域。 - Firstly , in the magnetic field varying from 0mt to 1200mt , we have tested the faraday rotation angle of the three kinds of crystals . at different aspects such as nonlinear aspects , the influence on rotation angle caused by coating the crystals and inclining them the experiment has been finished . and the experiment achieved the following results : 1
从faraday效应的磁致非线性特征、镀增透膜对faraday旋光角的影响、晶体倾斜对旋光角的影响三个有关旋光角的方面进行了实验,得出: 1 、 faraday旋转随外磁场变化的非线性变化曲线; 2 、镀增透膜前后晶体旋光角的变化比较曲线; 3 、晶体倾斜前后旋光角变化比较曲线。 - Faraday rotation spectra was measured on samples with model cgx - 1 fr test apparatus by ourselves using the magneto - optical modulated double - frequency method . the development on magneto - optical material and devices , especially on rare - earth ion garnet , were reviewed . as a solution to the problem for temperature stabilized and wideband magneto - optical materials which could satisfy the development of magneto - optical devices for integration and miniaturization , a modified liquid phase epitaxy ( lpe ) technique was brought forward to grow thin film yb3fe5o12 onto substrate ybilg or thin film ybilg onto sustrate ybig
本论文工作包括对ybiig 、 ybig系列石榴石薄膜制备的实验构想、相图分析、制备工艺分析和配方设置,搭建了液相外延设备;比较系统地研究了ybiig 、 ybig系列石榴石薄膜的生长、测试,首次成功制备了ybig ybiig 、 ybiig ybig ggg系列复合膜,并采用xrd 、 sem 、 epma等方法对所得样品进行了结构、组分和微区形貌分析,用紫外可见光光谱仪测试了其在可见近红外波段光吸收。