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    法拉第磁旋光玻璃

    法拉第磁旋光玻璃 是一种新颖的光电高科技领域重要的透明光学功能材料,它能够使一束通过平行于磁场方向偏振光的偏振面发生旋转,是具有较强法拉第磁光效应Faraday Effect的玻璃功能材料。因其具有“非互易性”,即可将同一波长的正向入射光及反向入射光的偏振面,都向同一个方向旋转同一个角度,而与光束传播的方向无关。

    基于以上特性,该材料被广泛用于制作法拉第旋光器。如果将一个入射光束的偏振面旋转45度的旋光器置于两个彼此呈45度正交放置的偏振器之间,则构成光隔离器,即它只允许正向传输的光束通过该系统,而将反向传输的光束阻断。

     

    法拉第磁旋光原理及应用
    把磁光介质如水、铅玻璃等放到磁场中,使光线平行于磁场方向通过介质时,入射的平面偏振光的振动方向就会发生旋转,转移角度的大小与磁光介质的性质、光程和磁场强度等因素有关。
    磁光材料是激光、光电子学和正在发展的光子学中所用多种磁光效应器件使用的磁性材料。
    对磁光材料的特性要求主要是:
    (1) 高磁光效应,如高的法拉第磁光旋转角和克尔磁光旋转角
    (2) 低磁光损耗
    (3) 宽磁光效应频带
    (4) 高稳定性
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    法拉第旋光器

    法拉第旋光器Faraday Rotator,由磁旋光介质、磁体及调整部分构成,是一种“非互易”性的光学器件,即可将同一波长的正向入射光及反向入射光的偏振面都朝向同一个方向旋转同一个角度,而与光束的传播方向无关。

    把一个可将入射光束偏振面旋转45°的法拉第光旋转器置于一对彼此呈45°交叉放置的偏振器之间构成一台光隔离器,它只允许正向传播的光束通过该系统,而将反向传播的光束阻断。

    在可见光及红外波段400nm-1600nm范围,常用的磁光介质是牌号MR3-2,MR4的磁光玻璃;因其具有较高的维尔德常数Verdet (单位长度的磁光介质,在单位磁场下偏振光的旋转角度) 即旋光系数、高透过率和良好的机械、物理和光学性能是制作大口径、高性能旋光器优选材料。

    法拉第旋光器包括高通量永磁铁和磁光介质,通过在高、低磁场之间移动磁光介质实现调谐。专业设计的一个重要特点,是当磁光介质移动的时候不发生旋转,从而排除因残余楔入的光而引起传输光束变化的可能性。

     

    偏振面的旋转角度不仅取决于轴向磁场强度,还取决于磁光介质的长度和其在该波长下维尔德常数的大小。旋光系数与波长相关,随波长的增大而减小。为了避免在长波长时,需增加磁光介质的长度以实现45°的旋转,就必须用反向磁场的组合磁铁增加磁场强度,使磁体在磁光介质所在空间产生尽量强的轴向磁场,磁光介质产生尽量大的稳定偏振的旋转角度。
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    自聚焦透镜

    (English) Gradient Index Lens – Grin Lens is a micro gradient index lens.

    It is designed for use in focusing and collimation, e.g. WDM, optical couplers, collimators, optical isolators and demanding telecommunication and date communication applications

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    (English) Micro Precision Optics

    (English) Micro Optical prisms are blocks of optical material with flat, polished sides that are arranged at precisely controlled angles to one another. They are used in optical systems to deflect or redirect beams of light. They can invert or rotate images, disperse light into component wavelengths, and separate states of polarization. There are several basic types of optical prisms.

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    光隔离器
    法拉第光隔离器广泛应用于各种激光系统中,如多级激光放大器、光参量振荡器、环形激光器、掺饵光纤放大器、种子注入型激光器、光开关、光调制器等。总之,一切需要避免有害反射光的场合如导致光学损伤、系统不稳定等,都需要使用法拉第旋光器或光隔离器加以解决。

    光隔离器是消除高速光纤传输和光放大器的回程光束不良影响的关键器件。光隔离器也可保护您的设备免于接地环路,尖峰和脉涌的危险。我们在光隔离器上利用了法拉第旋转器,其优势在于旋转器的非互异性,即偏振面的旋转方向不因偏振光的传输方向的改变而改变。

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    (English) Semiconductor Silicon Wafers

    (English) We are mainly specializing in the high resistance silicon floating zone in vacuum condition.

    As a professional producer of silicon wafer in China, we offer the most cutting-edge technologies and expert service to satisfy your various needs with our competitive prices. All silicon wafers can be made according to your requirement in a variety of grades.

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    (English) Type MR1 Faraday Rotator Glass Elements

    (English) Type MR1 Diamagnetic Faraday Rotator Glass
    Verdet constant=0.072~0.093min/Oe.cm at 632.8nm
    Advantages: Diamagnetic Faraday Rotator Glasses has a very important property which is independent of temperature and widely used in Magnet Optic Current Transform(MOCT) and many kinds of polarimeters and instruments with higher sensitivity and stability

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    (English) Type MR1 Faraday Rotator Glass

    (English) Type MR1 Diamagnetic Faraday Rotator Glass
    Verdet constant=0.072~0.093min/Oe.cm at 632.8nm
    Advantages: Diamagnetic Faraday Rotator Glasses has a very important property which is independent of temperature and widely used in Magnet Optic Current Transform(MOCT) and many kinds of polarimeters and instruments with higher sensitivity and stability.

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    法拉第磁旋光元件
    牌号MR3-2 玻璃旋光系数
    维尔德常数: -0.329min/Oe*cm or -96 rad/T*m at 632.8 nm
    维尔德常数: -0.108 min/Oe*cm or -31.4 rad/T*m at 1064 nm

     

    光学参数:
    1. 端面光洁度: 10/5 (划痕/道子MIL-PRF-13830B)
    2. 通光面平面度: < λ/8- λ/10波长632.8nm
    3. 两通光面之间平行度: < 30 秒.
    4. 通光面与轴向垂直度: < 10分
    5. 偏振消光比:> 40 dB
    6. 有效通光孔径: > 90%
    7. 自由倒边: < 0.30mm x 45度
    8. 柱面细磨: < 30um
    9. 双面镀抗反射膜: R < 0.30%,1064nm
    10. 激光损伤阈值: > 5J/cm²,10ns,1064nm
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    (English) Type MR3-2 Faraday Rotator Glass

    (English) Paramagnetism Faraday Rotator Glass
    Type MR3-2 faraday rotator glass parameters at 20 ℃ temperature
    Verdet Constant: -0.33min/Oe*cm or -96rad/T*m at 632.8 nm
    Verdet Constant: -0.11 min/Oe*cm or -31.4 rad/T*m at 1064 nm
    Transmission window: 400nm-1600nm
    Type MR3-2 glass is characterized by a high Verdet constant and a lower nonlinear refractive index n2 to avoid self-focusing in high power laser system.

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    (English) Type MR4 Faraday Rotator Glass

    (English) Type MR4 Paramagnetism Faraday Rotator Glass parameters

    Verdet constant=-0.38 min/Oe*cm at 632.8 nm, t=20 ℃

    Verdet constant=-0.118 min/Oe*cm at 1064 nm, t=20 ℃

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