产品系列:光栅光谱仪
产品型号:IsoPlane-320零像差光谱仪
产品品牌:IsoPlane
产品简介
特有的无像差设计!
IsoPlane-320零像差光谱仪在整个焦平面上的所有波长处确保无像差,从而提供了较高的空间分辨率。具有无与伦比的光谱成像性能,在多通道光谱应用中能够实现100个以上的光纤通道,以极小的串扰减少图像和光谱失真,CCD相机的高度可达22mm。
技术优势
1、特殊的无像差设计
IsoPlane-320在整个焦平面上的所有波长处确保无像差,从而提供了较高的空间分辨率。
无与伦比的性能,能够解决100个以上的光纤通道,以最小的串扰减少图像和光谱失真,CCD相机的高度可达22mm。
2、高效光学涂层
通过使用Acton #1900增强型铝镜,可在193 nm到中红外的范围内实现最高的反射率。可选的银涂层可提供平均98%的反射率,可选的金涂层可用于近红外成像。
3、 由LightField软件提供支持
此款功能强大且直观的软件带有内置数学引擎,可通过实时图像分析和光谱数据对相机和摄谱仪进行完全控制。
LightField软件可将硬件控制和直接数据采集无缝集成到某些程序中,例如National Instruments的LabVIEW®和MathWorks的MATLAB®。该软件还完全支持IntelliCal自动波长和强度校准功能。
产品参数和型号
| 型号 | 焦长 | **CCD光谱分辨率ResXtreme | 线色散倒数 | 数值孔径 | *PMT分辨率 |
| IsoPlane 160 | 203 mm | 0.07 nm or better (typ.) | 3.61 nm/mm | f/3.88 | 0.13 nm |
| IsoPlane 320 | 320 mm | 0.05 nm or better (typ.) | 2.30 nm/mm | f/4.6 | 0.05 nm |
| Note: | Note: Unless otherwise stated, specifications are with a 1200 g/mm grating @ 435.8 nm.* PMT resolution measured with a 1200 g/mm grating @ 435.8 nm, 10 μm slit width, and 4 mm slit height.** CCD resolution measured at the focal plane center with 10 μm slit and a Princeton Instruments PIXIS:400F with 20 μm pixels @ 546 nm. | ||||
产品规格
应用案例:(允许接入多类型探测器)
1. Measuring Large Scale Interactions Between Surfaces with nm Precision to Better Understand Geological Formations
“The low aberrations of the IsoPlane system allow us to make very precise measurements of 2D spectral interference patterns. In combination with LightField and Intellical, this system is very efficient to setup for challenging scientific measurements, such as imaging of reactive mineral surfaces in confinement”
Dr. Joanna Dziadkowiec, Dr. Anja Røyne
University of Oslo
2. Control of Ultrafast Non-Linear Interactions in Materials and Plasmonic Nanostructures
“While most spectrometers would not be able to measure the weak non-linear signal levels we see in our experiment, IsoPlane and PIXIS provide the necessary sensitivity we need.”
Eyal Bahar
University of Tel Aviv
3. Real-Space and Fourier Imaging and Spectroscopy of NIR Emission from SWCNTs
“In the NIR, the emission efficiency of materials drops drastically, so it is good to have low thermal noise.”
Prof. Jana Zaumseil
Heidelberg University, Germany
4. Microspectroscopy for Studying the Surfaces of Individual Nanoparticles
“As the IsoPlane is aberration corrected, we can have highly reliable intensity values over the whole range of the CCD”
Dr. András Deák
Centre for Energy Research
Eötvös Loránd Research Network
Hungary
