Customized Solutions

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Your science is constantly evolving and requires dynamic solutions to meet the changing demands on your imaging systems. To expand your research capabilities, our life science microscopes are available in the following line of specialized solutions that increase the capabilities of your standard system to meet your research applications and requirements.
Customized Solutions

Life Science Customized Microscope Solutions

Products

Variable Angle Inner Focus Unit for Upright and Inverted Microscopes

Variable Angle Inner Focus Unit for Upright and Inverted Microscopes

  • High-speed and vibration-free imaging with inner focus unit
  • Variable angle unit mechanism suitable for multiphoton imaging

FVMPE-RS Laser Sharing System

FVMPE-RS Laser Sharing System

  • Sharing IR pulse laser between two multiphoton systems

Mouse Adsorption Fixing Device

Mouse Adsorption Fixing Device

  • Adsorption and fixation of the observation site on the mouse reduces pulsation during observation

Additional Ports for External Laser Introduction (VIS/IR/NIR Laser

Additional Ports for External Laser Introduction (VIS/IR/NIR Lasers)

  • For upconversion (e.g., 808 nm / 980 nm lasers)

Near-IR Laser Add-on for the IXplore™ SpinSR System

Near-IR Laser Add-on for the IXplore™ SpinSR System

  • 785 nm laser enables near-infrared (NIR) imaging designed for biological samples
  • Reduce phototoxicity and background fluorescence for improved live cell imaging

Near-IR Laser Autofocus

Near-IR Laser Autofocus

  • Mounted 830 nm auto-focus laser suitable for 400 nm–785 nm fluorescence observation.

Note:

Integrating Microscopy into Automated Microelectronics Manufacturing

Microelectronic components in electronics have become part of our daily life—whether in smartphones, smart homes, or smart cars. Built with intelligent optical sensors and emitters, as well as corresponding logic and memory modules, these advanced components require highly developed production facilities with special care in handling and quality control. As a result, semiconductor wafer production is largely an automated process. However, some parts of production are supplemented with manual test processes, such as microscopy, in a controlled cleanroom environment.

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Fluorescent Observation of Cracks in Brake Pads

Brake pads decrease the rotation of a wheel by applying a frictional force against both sides of a disk on the wheel. This subjects the brake pads to stress and elevated temperatures. Depending on the material composition, manufacturing method, and strength of the pads, cracks may develop during use.

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