Features:
l • Fully automatic Raman imaging experiment, automatic focus
and automatic scanning.
l Ultra-large imaging (50x50mm), automatic image splicing.
Support up to four excitation wavelengths Raman.
l Long focal length high-resolution design.
l Ultra-field imaging function (optional).
l Ultra-high sensitivity, signal-to-noise ratio > 6000:1.
The maximum time of points can reach 1.3 hours.
l True focus ensures more accurate Raman images.
l Ultra-high spatial resolution.
l Unique software control switching optical path.
l Locate quickly and quickly find the focus position.
l High-quality objective lens, spot micron class.
l 5 million cameras with clear and accurate images
l USB 2.0 connector to the computer.
Application:
l Nanoparticles and new materials.
l Research institute research.
l Biological sciences.
l Forensic expertise.
l Materials science.
l Medical immunoassay.
l Agricultural and food identification.
Description:
The ATR8800 series microscopic Raman
spectrometer integrates two lasers and combines the
advantages of the microscope and the Raman
spectrometer. The micro-Raman detection platform
makes it possible to "seen and test", and the visually
accurately locates the Raman detection platform, so
that the observer can detect the Raman signals of
different surface states on the sample and display the
microzoning shape of the detected position on the
computer, which greatly facilitates the Raman
micro-area detection.
The full series of ATR 8800 can be fully
automatic focus, automatic scanning, key operation,
batch experimentation, uniformity scanning, etc.,
without waiting, and can be obtained. Highly reliable
scanning imaging Raman data.
The ATR8800 is equipped with spectrometers
with different focal lengths to meet the requirements
of different resolutions. The ATR8800 is also
equipped with objective lenses specially designed for
Raman systems, which brings laser spots to the limit
of diffraction, and then displays focus information
accurately and intuitively on the computer through 5
million cameras. The problem of collecting Raman
signals in ordinary Raman systems is slightly higher
or slightly lower than the actual optimal focal surface,
thus improving Raman spectral quality.
The ATR8800 perfectly solves the loss of the
camera imaging time path, and realizes the separation
of camera imaging from Raman signal collection, so
as to obtain the best signal strength. At the same time,
the ATR8800 uses high-performance Raman, whether
it is sensitive, signal-to-noise ratio, stable, etc., which
is a leading level in the industry, providing a strong
guarantee for Raman's research.