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E3200 Component Optical Tweezers: Open architecture ideal for the lab environment

E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
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E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
E3200 Component Optical Tweezers: Open architecture ideal for the lab environment
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  • Model: Elliot Scientific E3200
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Component-based Optical Tweezers - Custom systems for laboratory environments   

E3200 Series   

For the advanced biophysicist, a number of different breadboard-based custom systems can be configured using an open architecture format for laboratory environments. This range of systems can cater for the many variations needed by researchers using optical trapping equipment.

E3200 custom systems can be supplied either ready assembled or in modular form for the user to set up to match particular requirements, especially in mechanobiology and biomechanics.

Dozens of Universities have asked us to build kit-style Optical Tweezers Systems for their MSc Lab experiments. This allows economical purchase and installation of a complete Optical Tweezers system rather than technicians having to specify and build such an experiment.

Systems built for Lab Experiments include:

  • Inverted Optical Tweezers
  • Dual Beam Optical Tweezers
  • Bessel Beam Optical Tweezers
  • Quadrant Photo Detector (QPD) Optical Tweezers
  • Inverted Raman Optical Tweezers
  • Twin Spot AO Systems

Please contact us with details of your application.

Application Notes and Papers
Elliot Scientific Optical Tweezers Application Note PDFs and accompanying Videos:

Are you an academic on LinkedIn? If so, why not join our Optical Tweezers & Laser Trapping group.

 

 

Need stability?

Active Vibration Control Products  
 
Passive Vibration Control Products
File NameSizeLink
brochures/Tweezer_Brochure_2019_Web_481.pdf724.66 kbDownload
ES 3x3 Grid Manipulation_481.wmv6.12 MbDownload
ES 5x5 Grid Manipulation_481.wmv6.8 MbDownload
ES HEK Adhesion_481.wmv6.85 MbDownload
ES HL60 Optoinjection 1_481.wmv5.65 MbDownload
ES HL60 Optoinjection 2_481.wmv8.39 MbDownload
ES RBC Array_481.wmv7.84 MbDownload
ES RBC Flip_481.wmv4.59 MbDownload
ES RBC Stretch 1_481.wmv4.62 MbDownload
ES RBC Stretch 2_481.wmv4.55 MbDownload
ES TRA 3x3 Array_481.wmv4.04 MbDownload
ES_Tweezer_Application_Note_001_481.pdf850.75 kbDownload
ES_Tweezer_Application_Note_002_481.pdf970.21 kbDownload
ES_Tweezer_Application_Note_003_481.pdf771.71 kbDownload
ES_Tweezer_Application_Note_004_481.pdf797.25 kbDownload
Showing 1 to 15 of 16 (2 Pages)

A number of papers have been published by scientists around the globe who have used an Elliot Scientific E3200 Series Component based Optical Tweezers system within their research. Here is an example: