1) magneto-optical crystals
磁光单晶
2) magneto-optic crystal
磁光晶体
1.
Depolarization effect of magneto-optic crystal Bi-YIG in adjustable magnetic field;
磁光晶体Bi-YIG的磁致退偏效应
2.
The optical system has been established in which the change of polarization state for magneto-optic crystal can be measured.
搭建了磁光晶体的磁致偏振特性测试实验系统。
3.
The optical system is established, in which the change of polarization state for magneto-optic crystal can be measured in continuous adjustable magnetic field (0~1.
搭建了磁光晶体的磁致偏振特性测试系统 ,此系统可在连续可调磁场下 (0~ 1 。
3) magneto-optical crystal
磁光晶体
1.
The magnet-reflectance spectrum can be used effectively for the studies of electron state structure of magneto-optical crystal, which is proved by the result of the experiment.
本文报导了用磁场调制反射光谱对磁光晶体进行的光学测量。
2.
For Faraday isolator, its performances are determined by magneto-optical crystals optical performances of the Faraday rotator.
对于法拉第光隔离器,其内法拉第旋转器所采用的磁光晶体的光学性能直接决定了光隔离器的性能。
3.
In optical fiber magnetic sensor, the Faraday rotation angle of magneto-optical crystal might be different with the change of the wavelength.
光纤磁场传感器所使用的磁光晶体的法拉第旋转角会随着入射光波长的不同而不同,半导体激光器的工作温度对输出波长有很大影响。
4) magneto-optical lattice
磁光晶格
1.
We also introduce some schemes to form magneto-optical lattices (MOLs) and magnetic lattices (MLs) with cold atoms proposed by our research group.
本文还特别介绍了本研究小组提出的利用中性原子的磁囚禁来实现原子磁光晶格和磁晶格方案。
5) single crystal fibers
单晶光纤
1.
Al_2O_3 and ZrO_2 single crystal fibers(SCF)are grown by laser heated pedestal growth (LHPG)method.
用激光加热基座法(LHPG)生长了Al_2O_3及ZrO_2单晶光纤,并研究了两种单晶光纤(SCF)的生长条件及其光学品质,初步实验证明:两种单晶光纤可用于制作高温传感器。
2.
In this paper the single crystal fibers(SCF)Ho∶YAG,(Ho,Cr)∶YAG,Cr∶YAG are grown by the laser-heated pedestal growth(LHPG)mothed.
本文工作中用LHPG生长Ho∶YAG,(Ho,Cr)∶YAG,Cr∶YAG等单晶光纤(SCF)。
6) single crystal fiber
单晶光纤
1.
A core-cladding waveguide structure of the α-axis Nd:MgO:LiNbO_3 single crystal fiber with step and parabolic refractive indices profile is achieved by a Mg- ion indiffusion process.
通过镁离子内扩散方法,实现了沿α轴向生长的掺镁钕铌酸锂单晶光纤具有阶跃和抛物折射率分布的芯-包层波导结构。
2.
The composite Cr 4+∶YAG-Nd 3+∶YAG crystal fiber was grown form Cr 4+∶YAG and Nd 3+∶YAG single crystal fiber,by using LHPG method.
用LHPG法将Cr4 +∶YAG单晶光纤和Nd∶YAG单晶光纤生长成为一体化的Nd3+,Cr4 +∶YAG光纤 ,并实验研究了一体化的被动调Q光纤激光器的某些性质。
3.
Molten zone controlling technique was used in the single crystal fiber growth by means of LHPG.
采用激光加热基座生长法 (LHPG)生长单晶光纤 ,研究晶体源棒的熔球大小、籽晶点入深度与熔区长度、生长速度、生长质量的关系及控制技术 ,得到了生长优质单晶光纤过程中的各控制参数最佳
补充资料:稀土石榴石单晶磁光材料
分子式:
CAS号:
性质:钇铁石榴石(YIG)在λ=1~5/μm间完全透明。在波长1.064μm时,加入不同的Pr可使|θf|由270~1500度/cm。在560nm波长,Bi0.7Y2.3Fe5O12的θf >5×104度/cm,磁光优值θf/a(磁光品值因素,每分贝若干度)大于5度。一般钇铁石榴石成分为(mol%):PbO38.25,PbF228.45,B2O35.40,CaO 0.10,Y2O310.42,Fe2O3 17.38。用熔剂法制取。可以制备磁光器件和微波器件等。
CAS号:
性质:钇铁石榴石(YIG)在λ=1~5/μm间完全透明。在波长1.064μm时,加入不同的Pr可使|θf|由270~1500度/cm。在560nm波长,Bi0.7Y2.3Fe5O12的θf >5×104度/cm,磁光优值θf/a(磁光品值因素,每分贝若干度)大于5度。一般钇铁石榴石成分为(mol%):PbO38.25,PbF228.45,B2O35.40,CaO 0.10,Y2O310.42,Fe2O3 17.38。用熔剂法制取。可以制备磁光器件和微波器件等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条