Difference between revisions of "Optical Tweezers"

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<h3>Trapping Video</h3>
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[https://www.youtube.com/watch?v=8yDtwDss-Og]

Revision as of 22:18, 12 June 2014

Optical Tweezers

Resources

  • [1] Directions on how to use a QPD in an optical tweezer setup.
  • [2] Here are some slide prepping instructions from Berkeley.

Our own setup

Using NI Vision Assistant

  • [4] Image Acquisition/Saving Images
  • [5] How to track the microspheres in NI Vision Assistant using pattern matching.
    • We actually tried both using pattern matching and brute force point and click methods. Neither worked very well, so we recommend using the QPD to get position measurements

Our calculations using Brownian Motion

  • 2.56 micrometer spheres
    • 4.6 mW Beam [6]

Calculating Trap Forces Using Stokes' Drag Force

  • [7] iPython Calculations
  • Beam Power (mW) Escape Velocity (microns/second) Trap Force (pN)
    5.5 20.57 0.44
    8.5 33.49 0.72
    11.7 40.00 0.86
    15.3 62.60 1.34
    19.0 84.71 1.82
    23.0 110.77 2.38
    Trap force graph stokes 1.png
  • A simple calculation would say that I need a 10 billion watt laser to achieve a 1 Newton trapping force. We should totally do that. The spheres would be so incredibly trapped.

Trapping Video

[8]