Introduction: OmniRS series of modular Raman spectroscopy measurement system, modular design, the selection of high-performance optical components, according to the experimental needs, the flexibility to choose the required components, such as dual monochromator, laser, data acquisition, etc. It is suitable for the measurement of Raman spectrum and fluorescence spectrum of scientific research institutes, university physics laboratories and chemical laboratories. It has the advantages of simple structure, easy adjustment and measurement, high sensitivity and good stability. The typical architecture of the OmniRS Raman spectroscopy system consists of a laser, a spectrometer, a sample cell and a sample holder (including a three-dimensionally adjustable vertical sample holder, a horizontal liquid sample holder, a solid, a powder sample holder, etc.) A CCD, a control software, a computer, a small optical platform. OmniRS-532 modular Raman spectroscopy system OmniRS-532 modular Raman spectroscopy system using 532nm wavelength DPSS all-solid-state lasers as the excitation light source, high resolution, low stray light long focal length image correction spectrometer as a spectrometer, imported notch filter or edge cut-off Filter as a notch filter, import research-grade refrigeration CCD as a signal collector, with a variety of accessories for liquid and solid samples of the analysis. System uses USB2.0 communication interface, user-friendly selection of laptop computers as a control computer. OmniRS-Micro combined microscope Raman spectroscopy system OmniRS-Micro combined micro Raman microscope measurement system uses a micro-optical path, compared to the conventional light path, Microscopic optical path has a higher collection efficiency, making the system has a higher sensitivity. Technical Parameters: Raman spectral range: 200-4,000 cm-1 (typical) Resolution: ≤ 5cm-1 Laser: Standard: 532nm (100mW, TEM00) Optional: 488nm, 632.8nm, 785nm and so on Spectrometer specifications: focal length 500mm, image correction, three raster tower, USB interface Spectrometer spectral range: 200-2500nm detector: OmniRS-532: Cool CCD 2000 × 256 200-1100nm PMTH-S1-R1527 200-670nm Dark Count <100cps OmniRS-Micro: Cool CCD 2000 × 256 200-1100nm PMTH-S1-R1527 200-670nm Dark Count <100cps
Introduction: OmniRS series of modular Raman spectroscopy measurement system, modular design, the selection of high-performance optical components, according to the experimental needs, the flexibility to choose the required components, such as dual monochromator, laser, data acquisition, etc. It is suitable for the measurement of Raman spectrum and fluorescence spectrum of scientific research institutes, university physics laboratories and chemical laboratories. It has the advantages of simple structure, easy adjustment and measurement, high sensitivity and good stability. The typical architecture of the OmniRS Raman spectroscopy system consists of a laser, a spectrometer, a sample cell and a sample holder (including a three-dimensionally adjustable vertical sample holder, a horizontal liquid sample holder, a solid, a powder sample holder, etc.) A CCD, a control software, a computer, a small optical platform. OmniRS-532 modular Raman spectroscopy system OmniRS-532 modular Raman spectroscopy system using 532nm wavelength DPSS all-solid-state lasers as the excitation light source, high resolution, low stray light long focal length image correction spectrometer as a spectrometer, imported notch filter or edge cut-off Filter as a notch filter, import research-grade refrigeration CCD as a signal collector, with a variety of accessories for liquid and solid samples of the analysis. System uses USB2.0 communication interface, user-friendly selection of laptop computers as a control computer. OmniRS-Micro combined microscope Raman spectroscopy system OmniRS-Micro combined micro Raman microscope measurement system uses a micro-optical path, compared to the conventional light path, Microscopic optical path has a higher collection efficiency, making the system has a higher sensitivity.