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IR-neaSCOPE+fs

Product-IR-neaSCOPE-fs_sqr

IR-neaSCOPE+fs

IR-neaSCOPE+fs is designed for pump-probe spectroscopy with 10fs temporal and 10nm spatial resolution: it enables ultra-fast nanoscale science.

Principle of pump-probe spectroscopy

neaSCOPE+fs pushes the limits of spatial resolution of pump-probe spectroscopy. The accessible nano-FTIR fs laser system provides a fully integrated hardware and software solution for capturing time-dynamic phenomena at the nanoscale. The patented two-beam design, dispersion-free optics and optional SDK (software development kit) provide compatibility with a large number of pump-probe lasers for the implementation of sophisticated high-performance experimental setups and groundbreaking ultra-fast research.

IR-neaSCOPE is the basic model for infrared imaging and nano-spectroscopy. It provides maximum performance without damaging the sample. This is a cost-effective solution for samples with a high coefficient of thermal expansion.
VIS-neaSCOPE+s enables the measurement of polarization-resolved maps in the near field and the analysis of the electromagnetic field of the sample: phase and amplitude.
IR-neaSCOPE+s enables IR imaging and nano-FTIR spectroscopy by detecting radiation reflected from a standard AFM tip. It is a universal solution for all types of materials. It measures both absorbed and reflected radiation simultaneously and uses the fastest and most reliable modules for nano-imaging and nano-spectroscopy.
THz-neaSCOPE+s is a versatile platform for nano-imaging and terahertz (THz) spectroscopy.
IR-neaSCOPE+TERs is a revolution in nano-spectroscopy thanks to a combination of nano-FTIR and Raman spectroscopy techniques, providing complete spectral analysis.
cryo-neaSCOPE+xs is a pioneering instrument for nanoscale optical imaging and spectroscopy in an extreme cryogenic environment.
SNOM (near field scanning optical microscopy or NSOM) is a microscopic technique that exceeds the resolution limit due to the properties of attenuated waves. The distance between the detector and the sample is less than the wavelength of light when measured, and this is used in optical microscopy, among other things, for its ability to increase the contrast of nanoparticles.

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