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Optical traps are useful for studying the effects of forces on single molecules. Feedback-based force clamps are often used to maintain a constant load, but the response time of the feedback limits bandwidth and can introduce instability. We developed a novel force clamp that operates without feedback, taking advantage of the anharmonic region of the trapping potential where the differential stiffness vanishes. We demonstrate the utility of such a force clamp by measuring the unfolding of DNA hairpins and the effect of trap stiffness on opening distance and transition rates.
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William J. Greenleaf
Stanford Medicine
Michael T. Woodside
University of Alberta
Elio A. Abbondanzieri
University of Rochester
Physical Review Letters
Stanford University
National Institute for Nanotechnology
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Greenleaf et al. (Tue,) studied this question.
synapsesocial.com/papers/6a1c88294defe5c851c3e3cf — DOI: https://doi.org/10.1103/physrevlett.95.208102
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