Inverted Research Microscopes
Compound Microscope System
IXplore Standard
- Repeatability and accuracy for standard imaging tasks
- Benefit from the same optical capabilities found in high-end IXplore systems
- Easily upgrade to encoded functionality to boost the reproducibility of experiments
- Obtain high-quality images, even with standard cell culture vessels
Automated Microscope System
IXplore Pro
- Automated multi-dimensional observation with easy experiment set up
- Boost your statistics with multi-well plate screening
- Acquire fluorescence panoramic images of large samples, such as brain slices
- Increase resolution and create optical sections with deconvolution
- Create 3D optical sections and enhance resolution with TruSight deconvolution
Live Cell Imaging Microscope System
IXplore Live
- Utilize the Olympus real-time controller for physiologically relevant data with minimal cell disturbance
- Maintain cell viability while imaging with various environmental control options
- Maintain focus accurately and reliably in time-lapse experiments with TruFocus
- Discover the real morphology of your cells with Olympus silicone immersion optics
TIRF Imaging Microscope System
IXplore TIRF
- Excellent simultaneous multi-color TIRF for investigation of membrane dynamics and single molecule detection
- Exact colocalization of up to four markers thanks to individual penetration depth control
- Take advantage of Olympus’ remarkable TIRF objective with the world’s highest NA of 1.7*
- Intuitive set-up of complex experiments with the Graphical Experiment Manager (GEM) * As of July 25, 2017. According to Olympus research.
Confocal Imaging Microscope System
IXplore Spin
- Rapid and high-resolution confocal imaging with a spinning disk system
- 3D confocal time-lapse imaging of live cells with less phototoxicity and bleaching
- Precise 3D imaging with improved light collection using X Line objectives
- Upgrade to the IXplore SpinSR super resolution system as your research progresses
Super Resolution Microscope System
IXplore SpinSR
- Super resolution down to 120 nm XY resolution
- Prolonged cell viability in confocal time-lapse imaging due to less phototoxicity and bleaching
- Switch between widefield, confocal, and super resolution with one click
- Accurate 3D reconstruction with the world’s first plan apochromat objectives with a numerical aperture (NA) of 1.5* * As of November 2018. According to Olympus research.
Compact Cell Culture Microscope
CKX53
- Pre-centered phase contrast
- Inversion contrast (IVC) technique provides clear three-dimensional views
- Fluorescence with a 3-position slider
- Ideal for cell/tissue culture microscopes