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Thermally activated transitions in a bistable three-dimensional optical trap

Author

Listed:
  • Lowell I. McCann

    (Michigan State University East Lansing
    University of Wisconsin-River Falls)

  • Mark Dykman

    (Michigan State University East Lansing)

  • Brage Golding

    (Michigan State University East Lansing)

Abstract

Activated escape from a metastable state underlies many physical, chemical and biological processes: examples include diffusion in solids, switching in superconducting junctions1,2, chemical reactions3,4 and protein folding5,6. Kramers presented the first quantitative calculation7 of thermally driven transition rates in 1940. Despite widespread acceptance of Kramers’ theory8, there have been few opportunities to test it quantitatively as a comprehensive knowledge of the system dynamics is required. A trapped brownian particle (relevant to our understanding of the kinetics, transport and mechanics of biological matter9,10) represents an ideal test system. Here we report a detailed experimental analysis of the brownian dynamics of a sub-micrometre sized dielectric particle confined in a double-well optical trap. We show how these dynamics can be used to directly measure the full three-dimensional confining potential—a technique that can also be applied to other optically trapped objects11,12. Excellent agreement is obtained between the predictions of Kramers’ theory and the measured transition rates, with no adjustable or free parameters over a substantial range of barrier heights.

Suggested Citation

  • Lowell I. McCann & Mark Dykman & Brage Golding, 1999. "Thermally activated transitions in a bistable three-dimensional optical trap," Nature, Nature, vol. 402(6763), pages 785-787, December.
    • Handle: RePEc:nat:nature:v:402:y:1999:i:6763:d:10.1038_45492
    DOI: 10.1038/45492
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    Cited by:

    1. S. C. Kou & Benjamin P. Olding & Martin Lysy & Jun S. Liu, 2012. "A Multiresolution Method for Parameter Estimation of Diffusion Processes," Journal of the American Statistical Association, Taylor & Francis Journals, vol. 107(500), pages 1558-1574, December.

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