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瞬渺光电是国内专业光电实验室产品供应商,代理的光学仪器包含:光学仪器,空间光调制器波前分析仪,可变形反射镜,自适应光学系统,DHM等。

 

信息光学:光束相位,强度,波前探测与校正:

1.纯相位反射,透射空间光调制器(德国)  

2. 消色差波前传感器:品种齐全,高分辨率或高速均可(法国)

3.  高速多驱动变形镜:速度快、驱动单元多(法国)

4.  MEMS变形镜:低成本波前校正器(荷兰)

5.  高阈值变形镜:可校正高能激光束的静态、动态波前畸变(俄罗斯)

6.  变形镜:应用于各种光束的波前校正等自适应光学系统(俄罗斯)  

7.  数字微反射镜 DMD

8.衍射光学元件DOE主要用于激光束整形,比如均匀化、准直、聚焦、形成特定图案等。

9. 快速光学快门 FOS
分类名称: Holoeye空间光调制器 ALPAO高速变形镜 可变形反射镜 波前分析仪Phasics 自适应光学系统 数字微反射镜 DMD 数字微镜器件 光学元件器件DOE 快速光学快门 FOS 光刻仪
总共找到85个商品
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衍射投影套件  
衍射投影套件
Holoeye提供各种以硅基液晶为基础的空间光调制器。从紫外到红外,这些调制设备覆盖了非常宽的波段。近年来,在可见光波段的应用日益广泛,特别是用于AR/VR,或者抬头显示器里的广泛应用,使得相对于传统透镜组,计算全息成像的优势愈发明显——在投影中,除了通常的光学投影,还可以方便高效地修正各种相差,或者实现动态聚焦。对此,Holoeye提供了搭配其空间调试器(SLM)所使用的衍射投影套件。只需要用保偏光纤导入线偏激光,即可得到衍射成像投影。目前,套件支持Holoeye公司的Pluto-2、Leto、Gaea
TMS温度控制系统  
TMS温度控制系统
Holoeye有性能优异的PLUTO-2系列和GAEA-2系列液晶面板。但是,由于液晶的固有性质,为了达到最好的效果,需要保持理想的温度,因此,TMS系列温控系统就应运而生了。 新一代的PLUTO-2和GAEA-2为了解决液晶发热问题,已经自带了基本的热沉支架,但为了适应高功率和高精度的液晶调节,Holoeye公司开发了可以附加安装的温控系统。 MS001系统可以用于在实验室温度下,将液晶温度保持在呈下行工作温度下(30到35摄氏度)。 但对在高强度激光下使用的液晶,TMS 002则是更合适的选择。
Luna系列 紧凑型 空间光调制器  
Luna系列 紧凑型 空间光调制器
LUNA纯相位空间光调制器是基于液晶微显示技术,分辨率可达1920x1080像素。像元大小4.5μm。LUNA纯相位空间光调制器提供可见光波段和通信波段的型号可供选择,覆盖从400nm到1700nm的波长。对所有波长的调制范围都大于一个完整波长(2π),响应时间小于20ms LUNA系列具有尺寸小、集成度高的特点。液晶面板尺为8.64*4.86mm,驱动盒的尺寸仅有44*85*23.5mm。驱动盒提供最新的DP接口和显示适配器相连接,使用USB接口进行高级设置。 由于内建集成ASIC,LUNA系列本身即
Kaleo MTF Measurement Station  
Kaleo MTF Measurement Station
Phasics innovative solution delivers the most complete lens characterization: off-axis MTF and wavefront error at multiple wavelengths. It benefits from Phasics patented technology to provide accurate results even for large Field of View (FoV). Kaleo MTF
SID4 UV  
SID4 UV
COST-EFFECTIVE UV WAVEFRONT SENSOR | High resolution (62 500 phase pixels) Very high resolution – 250×250 phase map High sensitivity – 2 nm RMS Affordable solution for UV wavefront measurement Perfectly adapted for UV optics testing, UV
SID4 V Vacuum  
SID4 V Vacuum
Phasics is innovating by proposing the first off-the-shelf vacuum compatible wavefront sensor on the market. The SID4 V is designed to perform wavefront measurements under high vacuum. the wavefront measurement is realized in-situ in the same condition as
SID4 UV  
SID4 UV
COST-EFFECTIVE UV WAVEFRONT SENSOR | High resolution (62 500 phase pixels)
SID4  
SID4
HIGH RESOLUTION WAVEFRONT SENSOR | 400-1100 nm
SID4 HR  
SID4 HR
UNRIVALLED HIGH RESOLUTION | 400×300 phase pixels
SID4 NIR  
SID4 NIR
HIGH RESOLUTION PHASE & INTENSITY | at 1.55 µm
SID4 SWIR  
SID4 SWIR
COST-EFFECTIVE | HIGH RESOLUTION + HIGH SENSITIVITY |for shortwave infrared
SID4 SWIR-HR  
SID4 SWIR-HR
HIGH RESOLUTION + HIGH SENSITIVITY | for shortwave infrared
SID4-eSWIR  
SID4-eSWIR
HIGH RESOLUTION EXTENDED SWIR WAVE FRONT SENSOR
SID4 LWIR  
SID4 LWIR
HIGH RESOLUTION PHASE & INTENSITY | in the far infrared region
SID4 DWIR  
SID4 DWIR
Phasics introduces the first off-the-shelf high resolution wave front sensor for dual band infrared from 3 to 5 µm and 8 to 14 µm. The SID4 DWIR measures laser beam at 3.39µm and 10.6µm or source of any wavelength in between 3-5 µm and 8-14 µm such as bla
SID4-sC8  
SID4-sC8
Designed for life science and material inspection microscopes, SID4-sC8 brings fast, accurate and truly quantitative phase measurement in a compact, plug-and-play solution. Biologists will benefit from label-free cell imaging, high sensitivity and automat
SID4Bio  
SID4Bio
The SID4Bio is a plug & play camera for quantitative phase imaging. It works with any microscope and enables measuring valuable numerical parameters on live cells.
SID4 Element  
SID4 Element
ADVANCED ADD-ON | for quantitative phase microscopy
KaleoMultiWAVE  
KaleoMultiWAVE
The Kaleo-MultiWAVE bench is a unique instrument that delivers wavefront error at multiple wavelengths. Optics such as lenses, filters or mirrors can be characterized at their working wavelength. The KaleoMultiWAVE works at different wavelengths to perfor
KaleoMTF for R&D  
KaleoMTF for R&D
The KaleoMTF bench performs automated off-axis MTF and wavefront error measurements at multiple wavelengths. It also measures aberrations (Zernike coefficients), through focus MTF, distortion, EFL… All results are given in the lens exit pupil for accurate
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