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Product Demo: IXplore™ SpinSR Confocal Super Resolution System

In this product demo, experience the IXplore SpinSR system, designed for fast 3D super resolution imaging and prolonged cell viability in time-lapse experiments. The microscope system offers XY resolution down to 120 nm without the need for dedicated labeling procedures. Learn how to easily integrate the IXplore SpinSR microscope system into existing experiments and sample protocols to streamline your research.

Presenter: Stefan Marawske
Senior Sales Specialist, High-End Life Science Systems, Olympus Europa

Stefan Marawske is an expert on super resolution microscopy. During his PhD in the field of physical chemistry he created a home-built microscope for localization-based super resolution and particle tracking. He was fascinated by the fact that these methods are able to break the famous Abbe limit and can resolve structures that could not be identified before. He has been working with Olympus for more than 7 years and is responsible for high-end imaging systems, such as TIRF and spinning disc.


Related Products

Confocal Super Resolution for All Live Cell Samples

IXplore SpinSR

Achieve high-level super resolution 3D imaging down to 120 nm XY with the IXplore SpinSR confocal super resolution microscope. Its spinning disk system limits both phototoxicity and bleaching, providing imaging conditions conducive to live specimens. Easily switch between widefield, confocal, and super resolution as needed with a click of a button. The IXplore SpinSR can create accurate 3D reconstructions thanks to our high NA silicone immersion objective, which can minimize spherical aberration.

  • 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
  • Super resolution imaging with the world’s first plan apochromat objectives with a numerical aperture (NA) of 1.5*


* As of November 2018. According to Olympus research.

Product Demo: IXplore™ SpinSR Confocal Super Resolution System

In this product demo, experience the IXplore SpinSR system, designed for fast 3D super resolution imaging and prolonged cell viability in time-lapse experiments. The microscope system offers XY resolution down to 120 nm without the need for dedicated labeling procedures. Learn how to easily integrate the IXplore SpinSR microscope system into existing experiments and sample protocols to streamline your research.

Presenter: Stefan Marawske
Senior Sales Specialist, High-End Life Science Systems, Olympus Europa

Stefan Marawske is an expert on super resolution microscopy. During his PhD in the field of physical chemistry he created a home-built microscope for localization-based super resolution and particle tracking. He was fascinated by the fact that these methods are able to break the famous Abbe limit and can resolve structures that could not be identified before. He has been working with Olympus for more than 7 years and is responsible for high-end imaging systems, such as TIRF and spinning disc.


Related Products

Confocal Super Resolution for All Live Cell Samples

IXplore SpinSR

Achieve high-level super resolution 3D imaging down to 120 nm XY with the IXplore SpinSR confocal super resolution microscope. Its spinning disk system limits both phototoxicity and bleaching, providing imaging conditions conducive to live specimens. Easily switch between widefield, confocal, and super resolution as needed with a click of a button. The IXplore SpinSR can create accurate 3D reconstructions thanks to our high NA silicone immersion objective, which can minimize spherical aberration.

  • 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
  • Super resolution imaging with the world’s first plan apochromat objectives with a numerical aperture (NA) of 1.5*


* As of November 2018. According to Olympus research.

Experts
Stefan Marawske
Senior Sales Specialist, High-End Life Science Systems
Olympus Europa

Stefan Marawske is an expert on super resolution microscopy. During his Ph.D. in the field of physical chemistry he created a home-built microscope for localization-based super resolution and particle tracking. He was fascinated by the fact that these methods are able to break the famous Abbe limit and can resolve structures that could not be identified before. He has been working with Olympus for more than 7 years and is responsible for high-end imaging systems, such as TIRF and spinning disc.

Product Demo: IXplore™ SpinSR Confocal Super Resolution SystemNov 05 2024
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