产品
Home /

棱镜

/镀氟化钙的分光五角棱镜

镀氟化钙的分光五角棱镜

分光五角棱镜是通过在棱镜其中一个倾斜面上添加一个楔,并加上部分反射涂层,可以将五角棱镜用作分光镜,透过率/反射率(T/R)比为50/50,其他比例的分光五角棱镜也能根据您的要求定制。

  • 产品产地:

    中国
  • 航运港口:

    中国福州
  • 交付周期:

    四周
  • 付款:

    银行电汇, 西联付款
立即查询
  • 描述


1. 分光五角棱镜的用途是什么?


分光五角棱镜是通过在棱镜其中一个倾斜面上添加一个楔,并加上部分反射涂层,可以将五角棱镜用作分光镜,通常透过率/反射率(T/R)比为50/50。

 

2. 福州优恩立光电可以用什么材料来制作分光五角棱镜?


N-BK7,A级光学玻璃、熔融石英


3. 福州优恩立光电的分光五角棱镜制造能力如何?加工精度上限是多少?



 Beamsplitter Penta Prisms  Beamsplitter Penta Prisms


参数

标准

加工上限

尺寸公差

+/-0.2mm

+/-0.1mm

90°偏离公差

3’

3’’

面形

λ/2

λ/4

光洁度

60-40

40-20



镀膜要求:可选

输入和输出面(S1和S2):增透膜


分光镜比率(透过率/反射率):20/80±5 or 50/50±5

反射率:每个面R>90%@630-680nm



4. 我们标准的尺寸是多少?


Part No.

AxB(mm)

     L1=L2(mm)

UPBA001

   6.0x7.0

     9.90

UPBA002

   10.0x10.0

    14.14

UPBA003

   15.0x15.0

    21.21

UPBA004

   20.0x20.0

    28.28

UPBA005

   30.0x30.0

    42.42


发送消息
如果您在使用本网站或我们的产品时有任何问题,请写下您的意见或建议,我们将尽快回答您的问题!感谢您的关注!
如果您有任何问题或建议,请给我们留言,我们会尽快回复您!
相关产品
镀增透膜BK7直角棱镜
镀宽带增透膜的斜边直角棱镜

直角棱镜通常用于改变光路,或用于将光束重新定向90°。直角棱镜是设计成90°角的棱镜,根据棱镜的方向产生倒置或反转的左手图像,同时使用两个直角棱镜是理想的使图像或光束位移的应用这些棱镜也被称为镜像反射棱镜

喷黑漆角锥
N-BK7角锥棱镜

角锥棱镜又称反射它有三个相互垂直的表面和一个斜边面。通过斜边进入的光依次被三个表面反射,并通过平行于入射光束的斜边面出现,而不考虑入射光束的方向由于其特殊的性能,常被用于距离测量、光学信号处理和激光等领域。

高精度五角棱镜
N-BK7五角棱镜

在光学系统中,五棱镜是用来定义直角的,它能够提供右手图像,特点是使光线偏离90°。五角棱镜是具有五个面的棱镜,不受轻微运动的影响。福州优恩立光电提供多种五角棱镜,在紫外,可见光,和红外光谱范围具有良好的光学性能。

融石英楔角棱镜
N-BK7和融石英楔角棱镜

棱镜是一种具有平面倾斜面的光学元件,通常各面以很小的角度相互倾斜,它将光线转向较厚的部分通常可以用作隔离元件。楔角棱镜也可以用来产生一个小偏差,不允许光线返回源。

道威棱镜和屋脊棱镜
BK7和熔融石英玻璃道威棱镜

道威棱镜由H.W.多芬发明,多芬棱镜也被称为反转棱镜。当棱镜绕其长轴旋转时,通过棱镜所看到的图像的旋转速度是棱镜旋转速度的两倍。道威棱镜比较特殊,有时用于特殊的应用。入口和出口表面都有防反射涂层

色散棱镜
30° - 60° - 90°色散棱镜

色散棱镜用于需要将入射光分离成其组成波长的应用中。例如,当白光进入色散棱镜时,它被分成三个部分:红、绿和蓝。色散棱镜是理想的光谱学或激光调谐。

BK7异形棱镜
高性能异形棱镜

异形棱镜成对使用,在保持另一个轴不变的情况下,沿一个轴放大输入光束的大小。椭圆型激光二极管光束可转换成近似圆形的光束


菱形棱镜
高精度菱形棱镜

菱形棱镜的应用是在不影响图像方向的情况下控制和重定向光路。它们可以用来取代光学中心线的光束折叠和不同尺寸的立体系统.

可见光镀增透消色差透镜
宽带增透膜消色差透镜

消色差透镜用来减小或消除色差。消色差透镜设计亦有助于减少球面像差。消色差透镜是一系列应用的理想选择,包括荧光显微镜、图像中继、检测或光谱学。消色差透镜通常是将两个元件胶合在一起或将两个元件安装在一个机械件中,它所产生的光斑尺寸比类似的单透镜要小。


IR Optics material
红外材料

1.  Germanium (Ge)


Germanium (Ge) is the preferred lens and window material for high performance infrared imaging systems in the 8–12 μm wavelength band. Its high refractive index makes Ge ideal for low power imaging systems because of minimum surface curvature. Chromatic aberration is small, often eliminating the need for correction.

 

Crystallographic properties
Syngony Cubic
Crystal Form Poly or Single Crystal
Lattice Constant 5.66
Cleavability <111>, non-perfect
Molecular Weight 72.6
Physical properties
Density, at 20 °C 5.33
Hardness, Mohs 6.3
Dielectric Constant for 9.37 × 109 Hz at 300 K 16.6
Melting 937
Thermal Conductivity, W/m·K at at 293 K 59
Thermal Expansion, 1/K at 298 K 6.1 × 10-6
Specific Heat Capacity, J/(kgK) at 273-373 K 0.074
Bandgap, eV 0.67
Knoop Hardness, kg/mm2 800
Youngs Modulus, Gpa 102.66
Shear Modulus, GPa 67.04
Bulk Modulus, GPa 77.86
Debye Temperature, K 370
Poissons Ratio 0.278
Elastic Coefficient C11=129, C12=48.3, C44=67.1
Apparent Elastic Limit 89.6 MPa (13000psi)
Chemical properties
Solubility in water None
Solubility in acids Soluble
Molecular Weight 72.59

2. Silicon (Si) 


Silicon (Si) is grown by Czochralski pulling techniques (CZ) and contains some oxygen that causes an absorption band at 9 microns.To avoid this, material can be prepared by a Float-Zone (FZ) process. Optical silicon is generally lightly doped (5 to 40 ohm cm) for best transmission above 10 microns, and doping is usually boron (P-type) and phosphorus (N-type). After doping silicon has a further pass band: 30 to 100 microns which is effective only in very high resistivity uncompensated material.
 
CZ Silicon is commonly used as substrate material for infrared reflectors and windows in the 1.5-8 micron region. The strong absorption band at 9 microns makes it unsuitable for CO2 laser transmission applications, but it is frequently used for laser mirrors because of its high thermal conductivity and low density. Application as window, lens in the 1.5 - 8 um region; Mirror for CO2 laser and spectrometer applications.
 

Crystallographic properties
Syngony Cubic
Lattice Constant, A 5.43
Physical properties
Density 2.33g/cm3
Hardness, Mohs 7
Dielectric Constant for 9.37 x 109 Hz 13
Melting point, оС 1414
Thermal Conductivity, W/m·K at 313 K 163
Thermal Expansion, 1/K at 293 K 2.6x10-6
Specific Heat Capacity, J/(kg°C) 712.8
Bandgap, eV 1.1
Knoop Hardness, kg/mm2 1100
Youngs Modulus, Gpa 130.91
Shear Modulus, GPan 79.92
Bulk Modulus, GPa 101.97
Debye Temperature, K 640
Poissons Ratio 0.28
Chemical properties
Solubility in water None
Molecular Weight 28.09

3、ZnS material:


ZnS MultiSpectral Under intense heat and pressure, defects within the crystalline lattice are virtually eliminated, leaving a water-clear material with minimal scatter and high transmission characteristics from 0.4 to 12 microns. This material is particularly well suited for high-performance common aperture systems that must perform across a broad wavelength spectrum.

Specifications:

Material: ZnS MultiSpectral
Diameter Tolerance: --------------------- +0.0, -0.1mm
Thickness Tolerance: -------------------- ±0.1mm
Clear Aperture: ---------------------------->85%
Parallelism: -----------------------------------3 arc minute
Surface Quality: ----------------------------80-50 scratch and dig
Wavefront Distortion: -------------------- λ /2 per 25mm @633mm
Bevel: -----------------------------------------Protective  (<0.2mm x 45° )
Coating: -------------------------------------- Optional (Uncoated, AR Coating, etc.)


4. ZnSe material


ZnSe is a preferred material for lenses, windows, output couplers and beam expanders for its low absorptivity at infrared wavelengths and its visible transmission. For high-power applications, it’s critical that the material bulk absorption and internal defect structure be carefully controlled, that minimum-damage polishing technology be employed, and the highest quality optical thin-film coatings are used. The material absorption is verified by CO2 laser vacuum calorimetry. Our quality assurance department provides testing and specific optics certification on request.

ZnSe is non-hygroscopic and chemically stable, unless treated with strong acids. It’s safe to use in most industrial field, and laboratory environments.



熔融石英窗片
高精度紫外熔融石英窗片

熔融石英窗片具有低热膨胀性,在温度大幅改变、宽热工作范围和高激光损伤阈值下具有稳定性和抗热冲击性,,是从紫外到红外传输的更好选择。

装配的带通滤光片
机器视觉带通滤光片


带通滤光片是一种通过一定范围内的频率并拒绝(衰减)该范围之外频率的装置,它用于选择性地传输一部分光谱,同时拒绝所有其他波长


订阅我们的通讯
联系
请求免费报价
如果您在使用本网站或我们的产品时有任何问题,请写下您的意见或建议,我们将尽快回答您的问题!感谢您的关注!

版权 © 福州优恩立光电科技有限公司 © 保留所有权利.

留言

首页

产品

公司

联系