看了IsoPlane成像型光譜儀的用戶又看了
虛擬號將在 180 秒后失效
使用微信掃碼撥號
美國PI 公司作為科學級CCD 相機和光譜儀的**者,經(jīng)過數(shù)十載技術(shù)創(chuàng)新,推出首臺全焦面零像差成像光譜儀Fergie。它采用內(nèi)置高靈敏度科學級CCD 芯片的全集成式緊湊設計,*簡化光譜實驗硬件設置。零像差不僅**化提高了光譜分辨率,也讓成像和光譜的切換輕松自如。輔以Fergie CUBEs 模塊化設計,無論是吸收、透射光譜,或是熒光、拉曼光譜,光路搭建都變得易如反掌。
IsoPlane成像型光譜儀
行業(yè)高級的成像光譜儀
IsoPlane 成像光譜儀重新定義了高性能與多功能的標準。
這款**設計,屢獲嘉獎的IsoPlane是成像光譜儀中非常好的產(chǎn)品。 f/4.6的光路在提供非常好的成像質(zhì)量的同時,還保證了非常大的光通量和信噪比。獨特的光學設計完全消除了焦平面上的像差,具有無以倫比的多通道成像能力,是一款獨特的產(chǎn)品。
IsoPlane-160是一款小巧的200mm焦距成像光譜儀,擁有f/3.88光路,獨特的像差糾正設計,成像質(zhì)量高,成像分辨率可以媲美1/3米焦距的傳統(tǒng)C-T型光譜儀(Czerny-Turner)。 IsoPlane-160小巧而性能強大。
IsoPlane系列具有以下優(yōu)點:
* 高分辨率成譜
* 非常好的成像能力
* 出色的信噪比
* **光學設計(IsoPlane-320)
* 三重光柵塔輪,自動化操作,具有光柵識別能力
產(chǎn)品綜述
****的全面性! 普林斯頓儀器不斷創(chuàng)新的傳統(tǒng)在這款屢獲嘉獎的IsoPlane-320上再次得到展現(xiàn),它獨特的零像差光學設計讓圖像和光譜的分辨率大幅度提高,同時還擁有更強的光通量。其分辨率可以媲美1/2米焦長的光譜儀,卻是其光通量的兩倍,使得IsoPlane成為高要求低光實驗中理想的選擇。 IsoPlane-160用非常小巧的設計達到了1/3米焦長光譜儀才能達到的分辨率。 它 f/3.88的光學設計幾乎完全消除了像差,也保證了高分辨率。 不僅是光譜應用,也是顯微光譜儀的理想選擇。 IsoPlane的常用領(lǐng)域包括: * 顯微光譜儀:拉曼,熒光和光致發(fā)光 * 多通道光譜儀 * 拉曼光譜 * 熒光和光致發(fā)光光譜 * 激光誘導擊穿譜儀(LIBS) * 生物醫(yī)學成像 * 傅里葉頻譜 |
產(chǎn)品特點
IsoPlane-320 **設計,零像散設計 全波長,全部焦平面零像散,高分辨率 避免信號串擾,同時采集>100光纖輸入信號 可充分利用大尺寸CCD的成像空間,芯片高度可達達22mm 其他任何反射型光譜儀難以匹配的性能 |
高光通量 每個像素可收集更多的光子,提升光譜分辨率和對比度 更高的信號強度提高實驗的靈敏度 (C6H6 1460 cm-1 image). |
三光柵塔輪,全軟件控制 探測范圍從UV到mid-IR,軟件選擇中心波長,全面的實驗靈活性優(yōu)于棱鏡型光譜儀 優(yōu)化的色散效率和分辨率,只需一鍵實現(xiàn) 光柵塔輪可快速更換,系統(tǒng)可支持高達9塊光柵 |
精準的千分尺調(diào)整 可調(diào)整光譜與相機的聚焦效果 提升光譜和相機的分辨率 |
高效率光學鍍膜 Acton#1900 增強型鋁膜反射鏡提供從193nm到mid-IR的非常高反射率. 保護性銀膜提供平均>98%的反射率. 近紅外可以選擇金膜. |
兼容普林斯頓儀器各類相機 PIXIS CCD cameras ProEM EMCCD cameras PI-MAX4 ICCDs and emICCD cameras NIRvana InGaAs NIR/SWIR cameras |
全面的附件 光纖束,濾波轉(zhuǎn)輪,光源,光柵等等. IntelliCal 波長校準和強度校準系統(tǒng) 點擊查看其他各種附件 |
LightField的64-位操作平臺 與LabVIEW,MATLAB,EPICS等第三方軟件無縫對接. 直觀易上手的用戶界面設計. 內(nèi)置數(shù)學引擎,實時獲得圖像與光譜的數(shù)據(jù)分析. |
型號規(guī)格
IsoPlane成像光譜儀產(chǎn)品參數(shù)與手冊
Model | Focal Length | Aperture Ratio | PMT Resolution* | CCD Resolution |
IsoPlane SCT-320 | 320 mm | f/4.6 | 0.05 nm | 0.08 nm |
IsoPlane 160 | 203 mm | f/3.88 | 0.10 nm | 0.15 nm |
Specifications determined with 1200 gr/mm grating at 435 nm with 26.8 mm width CCD camera with 20 μm pixels
*10 μm slit widths, 4 mm height
產(chǎn)品應用
Tip-Enhanced Raman Spectroscopy TERS - Tip-Enhanced Raman spectroscopy Laser-Induced Breakdown Spectroscopy LIBS is considered one of the most convenient and efficient analytical techniques for trace elemental analysis in gases, solids, and liquids. LIBS spectra obtained by the Mars Curiosity Rover have confirmed that our sister planet could have harbored life Fluorescence, Phosphorescence, and Photoluminescence Spectroscopy Fluorescence, phosphorescence and photoluminescence occur when a sample is excited by absorbing photons and then emits them with a decay time that is characteristic of the sample environment. General Raman The most common application of Raman spectroscopy involves the vibrational energy levels of a molecule. Incident laser light in the UV, visible or NIR, is scattered from molecular vibrational modes. Surface-Enhanced Raman Spectroscopy SERS - Surface-enhanced Raman spectroscopy Coherent Anti-Stokes Raman Spectroscopy Coherent Anti-Stokes Raman spectroscopy (CARS) a type of non-linear Raman spectroscopy. Instead of the traditional single laser, two very strong collinear lasers irradiate a sample. Singlet Oxygen Imaging Singlet oxygen, the first excited state of molecular oxygen, is a highly reactive species that plays an important role in a wide range of biological processes, including cell signaling, immune response, macromolecule degradation, and elimination of neoplastic tissue during photodynamic therapy. Combustion Combustion researchers rely on laser-based optical diagnostic techniques as essential tools in understanding and improving the combustion process. Plasma Emission Spectroscopy The different types of plasma emission spectroscopy can be categorized by how the plasma is generated. Spectra of nuclear fusion plasmas are used to ascertain the chemical species present and other properties. Resonance Raman Spectroscopy Instead of fluorescence, some types of colored molecules produce strong Raman scattering at certain conditions. This effect was called Resonance Raman. Stimulated Raman Scattering Stimulated Raman scattering takes place when an excess of Stokes photons that were previously generated by normal Raman scattering are present or are deliberately added to the excitation beam. |
暫無數(shù)據(jù)!