看了LTB激光诱导击穿光谱系统-LIBSLab系列的用户又看了
虚拟号将在 180 秒后失效
使用微信扫码拨号
LIBS作为分析测试领域一颗冉冉升起的新星,其实时在线检测,快速,免样品制备等独有特点,使其日益为科研及工业界广泛关注。
LTB作为LIBS领域拥有顶尖硬能力的专业制造商,从2002年起致力于LIBS在科研与工业领域的实践,至今已有15年的历史,LTB可以为科研及工业领域提供完整的LIBS系统,这就是
LIBSLab家族;LIBSLab针对各种不同的LIBS(LIBS&RAMAN)应用领域提供十五个子系列,上百种特别优化的完整LIBS系统专业解决方案
Echelle Spectrometers LIBS Chambers Lasers Software
? LIBSLab家族提供的完整的LIBS系统,包含:中阶梯光谱仪+LIBS专用样品室+脉冲激光器+光谱分析软件;与此同时LTB还提供高速(高频)LIBS系统,双脉冲LIBS系统,DUV双脉冲LIBS系统,准分子LIBS系统,超快LIBS系统,显微LIBS系统,显微微脉冲LIBS系统,远程LIBS系统,Femto filamentation LIBS系统,LIBS&RAMAN系统。
? LIBSLab系统拥有业界顶尖的光谱分辨精密度及精确度:高达亚皮米级别,胜任*复杂的LIBS研究(如锕系,镧系(稀土)元素LIBS分析,同位素光谱分析);**时间分辨能力高达500ps适用于在微纳秒时间尺度的原子分子动力学研究;拥有业界**的探测灵敏度,适用于痕量元素,LIBS不敏感非金属元素痕量探测;**空间分辨精度可达2μm,甚至更高;提供mapping功能及定量软件环境;提供可编程软件环境,使用户方便完成自动测试;LIBSLab提供各种激光光源及样品室配置以满足不同应用。
LIBSLab 系列- LTB激光诱导击穿(LIBS )光谱系统
The most powerful and professional LIBS System from Germany,Top level precise and accurate in frequency/time domain
LIBSLab根据不同的应用我们会针对光谱仪,激光光源及样品室进行不同的专业优化及方案匹配,具体配置根据客户应用需求有十五大系列,上百种配置。下表是各系列的简述。
LTB Laser Spectroscopy(LIBS,RAMAN) System | |||||||||||
Model Series | Range | Scheme | Resolution (λ/Δλ) | Resolution(pm) | Time resolve power | Mini Analysis spot | Laser wavelength | Pulse energy | Collection optics | ||
S01 | LIBSLab-I | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 300μm | 1064nm | 40mJ(Up to 650mJ Optional) | Ellipsoid Mirror | |
S02 | LIBSLab-II | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 50μm | 266nm | 6mJ(Up to 90mJ Optional) | Ellipsoid Mirror | |
S03 | LIBS-Micro-I | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 2μm | 263nm | 6mJ,8ns,10Hz | Microscope Objective | |
S04 | LIBS-Micro-I-337 | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 10μm | 337.1nm | 0.2mJ,3ns,20Hz | Microscope Objective | |
S05 | LIBS-Micro-II | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 2μm | 266nm | 0.8mJ,M2<3,2ns,50Hz | Microscope Objective | |
S06 | LIBS-Micro-II-HR | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 5μm | 532nm | 12.5mJ,10ns,100Hz | Microscope Objective | |
S07 | LIBS-Remote | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | - | 1064nm | TEM00 650mJ | Cassegrain Telescope | |
S08 | LIBSLab-Dual | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 300μm | 2x1064nm | 100mJ,10Hz | Ellipsoid Mirror | |
S09 | LIBSLab-Dual-532 | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 300μm | 2x532 | 50mJ,10Hz | Ellipsoid Mirror | |
S10 | LIBSLab-Dual-266 | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 50μm | 2x266 | 15mJ,10Hz | Ellipsoid Mirror | |
S11 | LIBSLab-193 | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 50μm | 193nm | 10mJ,5ns,300Hz | Ellipsoid Mirror | |
S12 | LIBSLab-Femto-I | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 8μm | 1030nm | 100MW,400fs,100kHz | Microscope Objective | |
S13 | LIBS-Femto-II | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4 | Down to 2ns5 | 8μm | 800nm | 4mJ,50fs,100kHz | Microscope Objective | |
S15 | LIBS&RAMAN | 180~1090nm2 | Echelle1 | Up to 480003 | Down to 5.3pm@253.652nm4RAMAN resolution:0.7cm-1 * | Down to 2ns5 | 2μm | 266nm633nm | 0.8mJ,M2<3,2ns,50Hz50mw@633nm SLM6 | Microscope Objective | |
Note: | |||||||||||
1 | 4 series,hundreds setups available:ARYELLE150/200/400/Butterfly,the definite setup would according your specific application | ||||||||||
2 | Would optimize according different application | ||||||||||
3 | Would optimize according different application | ||||||||||
4 | Related with different setups,42pm~1.3pm@253.652nm possible;On condition of resolution better than 10pm,Hg253.652 would not be suitable for test;We would suggest SLM laser | ||||||||||
5 | 2ns,5ns,50ns,100ns possible;EMICCD,ICCD,ICMOS,EMCCD,sCMOS,Scientific CCD would be the possible choice | ||||||||||
6 | single longitudinal mode laser,488nm,532nm,785nm possible | ||||||||||
* | 4cm-1~0.13cm-1 possible,not nominalvalue or pixel value |
暂无数据!