TruFocus Technology Stable Time-Lapse Imaging
The TruFocus system makes multiposition experiments and long-term, time-lapse imaging more robust and reliable. Learn more.
More Robust and Reliable Experiments
The TruFocus system makes multiposition experiments and long-term, time-lapse imaging more robust and reliable.
- An accurate beam maintains the focus position, compensating for thermal drift caused by changes in room temperature or drug delivery during experiments
- TruFocus Red system maintains the focus position during near-infrared (NIR) imaging when using dyes like Cy7
TruFocus Z-Drift Compensation
- Focus find mode allows you to easily find the focus position of your sample
- Single-shot autofocus (AF) mode allows you to perform multi-focus multi-position experiments for efficient 3D and 4D imaging
- Continuous AF mode enables to focus your sample in real time for high resolution, long term time-lapse imaging
- Compatible with plastic and glass vessels
Learn More
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https://main--eds-evident-website--evident-scientific.hlx.live/en/landing/ixplore/ixplore-live/
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 shape of your cells with Olympus silicone immersion optics
https://main--eds-evident-website--evident-scientific.hlx.live/en/landing/ixplore/ixplore-tirf/
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* (*As of July 25, 2017. According to Olympus research)
- Intuitive set-up of complex experiments with Graphical Experiment Manager (GEM)
https://main--eds-evident-website--evident-scientific.hlx.live/en/landing/ixplore/ixplore-spin/
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 silicone oil immersion objectives
- Upgrade to the IXplore SpinSR super resolution system depending on your research progress and/or budget
https://main--eds-evident-website--evident-scientific.hlx.live/en/landing/ixplore/ixplore-spinsr/
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 Olympus silicone oil immersion objectives
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FV4000
- Game-changing dynamic range for imaging from the macro scale to subcellular structures
- Multiplex up to six channels simultaneously with TruSpectral technology
- Redesigned high-speed, high-resolution scanners for fixed and live cell imaging
- Improved depth and photosensitivity with pioneering NIR capabilities and renowned optics
- Peace of mind with the reliable, repeatable SilVIR detector
- Industry leading * ten laser lines with a broader spectral range from 405 nm to 785 nm
*As of October 2023.
https://main--eds-evident-website--evident-scientific.hlx.live/en/laser-scanning/fv4000MPE/
FV4000MPE
- Acquire accurate, quantitative image data from the macro scale to subcellular structures
- Obtain more information from a single multicolor image
- Monitor neuron and other essential dynamics with high-speed imaging
https://main--eds-evident-website--evident-scientific.hlx.live/en/microscopes/inverted/scanr/
scanR
- Fast and precise image acquisition and analysis
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