生命科学
物理科学
Imaris
Imaris is an advanced software package for cell biologists that enables 3D/4D visualization, analysis, and automated tracking of cells and organisms.
Andor’s fast and sensitive scientific CMOS cameras cover a range of applications for life and physical science. Discover how Andor’s Scientific CMOS can assist you with your next discovery.
Features Include:
Image capture and analysis software platform
Designed for fluorescence imaging, X-ray studies, Raman imaging, and more
Comprehensive list of edge-detection algorithms
Smoothing filters including Mean, Median, and Gaussian filters
Provides full control over camera settings including exposure time, readout rate, and triggering options
Includes a region of interest (ROI) feature for real-time charting of image data.
Andor’s cooled, slow-scan and large area CCD cameras offer robust quality and low maintenance solutions for both life and physical science research.
Features include:
Large Field of View
Thermoelectric cooling to -100 °C
Industry leading low noise performance
Near Infra-Red enhanced response
Back-illuminated > 95% QE
Andor’s range of iStar sCMOS & CCD cameras are designed with you in mind. Whether your application area is Plasma Diagnostics, Quantum Physics or TR Luminescence Andor’s range of iStar sCMOS & CCD cameras can help you transform your research.
Features include:
Superior speed up to 4,000 fps and sps
Ultra low noise for high sensitivity
NEW Ultrafast spectroscopy and multi-track
Ultimate timing accuracy with <2 ns gating
Market leading dynamic range at full speed
Andor’s range of CCD, sCMOS and EMCCD detectors and cameras provide a wide range of high sensitivity, high dynamic range and fast detection solutions for table-top laboratory and beamline experiments.
Features include:
High VUV/EUV/XUV sensitivity
Deep TE-cooling to -100°C
Large Field of View (FOV)
High dynamic range
Up to 100 frames/s
Andor’s range of CCD, EMCCD, InGaAs, ICCD and sCMOS cameras offer tailored solutions to particular sample or optical phenomena detection and characterisation challenges for Raman, Luminescence/Photoluminescence, Non-Linear or Optical Emission Spectroscopy/LIBS –based experiments.
Features include:
High sensitivity UV-SWIR
Large pixel well depth
Nanosecond gating
µs to ms time-resolution
High sensitivity & resolution matrix