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 Intuitive
software permits easy switching
between the additive mode, which
allows the highest resolution
possible for investigation of
minute structural changes, and
the subtractive mode, which
allows the possibility of detecting
Raman bands less than 5cm-1
from the laser line. The unique
modular mechanical design allows
easy configuration for multiple
applications including a single
spectrometer mode for lower
resolution, higher throughput
experiments. Applications: Life
science, Cell dynamics, Semiconductor
research, Materials analysis,
Carbon nanotube characterization.
The
Confocal Raman Microscope Systems
is based on the Olympus microscopes
BX 51 and IX 71, an upright
and an inverted setup. The confocal
Raman microscope offers a spatial
resolution in the micron scale.
A software driven XYZ piezo
stage enables automated mapping.
The modular setup allows integrating
all lasers. Integrating the
cameras of Princeton Instruments
Inc., we can offer the whole
range of high sensitive, minimum
noise CCD and InGaAs detectors.
This ensures lowest signal detection
from UV to NIR.
Flexibility
One
of the key benefits of the TriVista
CRS systems is their high degree
of flexibility which maximizes
the return on your investment.
A wide range of spectroscopy
experiments can be accessible
at the one time, as all three
stages of the system can be
operated independently. Easy
re-configuration to a single
or double spectrometer is possible
or any combination thereof without
removing any of the components
from the pre-aligned baseplate.
This high degree of flexibility
also means it is possible to
upgrade from existing single
stage systems to a TriVista
or a TriVista Confocal Raman
system so that your Raman system
can grow with your needs.
Need
to know more ? Our team is prepared
to respond to your application.
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