inVia series Micro-Raman Spectrometer
Reduction of analysis time and minimization of sample damage risk.
The inVia series Raman microscope manufactured by Renishaw and distributed by Nihon Denshi Co., Ltd. is a micro-Raman spectrometer capable of local analysis of micro-objects at the sub-micron order. This device employs a bright optical system and the latest filter technology to efficiently detect Raman scattered light, which is generally considered weak. It enables high-sensitivity measurements even with low-power lasers, thus reducing analysis time and minimizing the risk of sample damage. Additionally, it features a unique high-speed mapping measurement function that supports high-speed chemical imaging analysis. 〇 Features - High-sensitivity spectroscopic system - Wide measurement wavelength range - Continuous wavelength scanning photometry that yields easily analyzable data - Automatic optical axis adjustment via PC control - Equipped with a high-precision XYZ auto stage - Supports high-speed Raman imaging - Capable of cutting-edge 3D Raman imaging analysis *For more details, please refer to the catalog. If you have any questions, please feel free to contact us.
basic information
【Specifications】 Model: inVia Reflex St, inVia Reflex, inVia Spectrometer: Single monochromator, focal length 250mm, brightness f/4 Compatible laser wavelengths: Regular options 532, 633, 785nm (multiple can be installed) Optional 229, 244, 266, 325, 364, 442, 488, 514, 830, 1064nm *Typically, up to 3 lasers can be installed (more than 4 can be installed as an option) Laser power adjustment: 16-step switching (PC controlled) Maximum wavenumber resolution: Standard 1cm-1, Optional 0.3cm-1 *For details, please refer to the catalog. If you have any questions, please feel free to contact us.
Price information
Please contact us regarding the price.
Delivery Time
Model number/Brand name
inVia series
Applications/Examples of results
【Purpose】 Chemical analysis of various compounds can be performed with high spatial resolution, regardless of whether they are crystalline or organic/inorganic materials.
