
M833双色散单色仪、色谱仪
可用于拉曼光谱仪,发射、荧光光谱仪
UV-IR范围
多通道
图像模式
低杂散光
F 1:5.5长焦距
三光栅设计
双进光口和出光口
全电脑控制
提供DLL和VI供编程控制
查看Solar Laser System激光波长计
查看Solar Laser System双色散模式单色仪
查看Solar Laser System原子力显微镜共聚焦光谱仪
主要应用:
宽光谱拉曼和光致发光光谱的测量,特别可以应用于低频领域;
-半导体材料的内部应力测量。
-可以测量到极小的stokes和反stokes拉曼谱线,一般可以测量到80-100波数。特别应用于聚合物体系,半导体材料,陶瓷的结合效应,晶体结构等拉曼测量。
-需要深紫外激发的应用,如蛋白质,钻石,镀膜,半导体的光致发光谱。

产品资料下载
M833测量的拉曼光谱图:532nm激光器(TEM00, 10mW),S7031-1006滨松探测器 (24um*24um pixel size, 24,6mm*1,4mm, ACD 16bit, one-stage Peltier cooling -10 Celsius, binning mode)


Fig. 1a, b. TeO2 Raman spectra depending on crystal orientation.
М833 is the unique instrument allowing to simultaneously observe both Stokes and Anti-Stokes components on the distance of 20 cm-1 from the exitation line.

Fig. 2. Raman spectrum of a single nitron fiber demonstrates characteristic peaks in the range of 300...480 cm-1 with maximum at 405 cm-1.

Fig.3. Breadboarding block-scheme of Raman spectra acquiring.
Raman spectra were collected at 90 deg to the exitation beam using a wide-aperture achromatic condenser PS-3, 600 um dia. optical fiber and the M833i spectrometer (1200 l\mm gratings and S7031-1006 Hamamatsu sensor). Aperture matching system AFA consisting of two objectives-achromats was used to match the optical fiber output (NA=0.2) and the M833i input (F# 5.5). The wide-aperture condenser PS-3 consists of a meniscus and two objectives-achromats and provides wide light collecting angle of 37 deg.
主要客户资料:
Institute for Physics of Microstructures Russian Academy of Sciences
Institute of Physics of PAS
Bauman Mascow State Technical University
Photochemistry Center Russian Academy of Sciences
B. I. Stepanov Institute of Physics, National Academy of Sciences of Belarus
N.I.Lobachevsky Nizhni Novgorod State University, radiophysical fac.
Tomsk Polytechnic University, TPU
Moscow Institute of Electronic Technology (Technical University), TU MIET
Al-Farabi Kazakh National University
A.M.Prokhorov General Physics Institute, Russian Academy of Sciences
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