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Literature DB >> 20052197

Increasing trap stiffness with position clamping in holographic optical tweezers.

Daryl Preece¹, Richard Bowman, Anna Linnenberger, Graham Gibson, Steven Serati, Miles Padgett.

Abstract

We present a holographic optical tweezers system capable of position clamping multiple particles. Moving an optical trap in response to the trapped object's motion is a powerful technique for optical control and force measurement. We have now realised this experimentally using a Boulder Nonlinear Systems Spatial Light Modulator (SLM) with a refresh rate of 203Hz. We obtain a reduction of 44% in the variance of the bead's position, corresponding to an increase in effective trap stiffness of 77%. This reduction relies on the generation of holograms at high speed. We present software capable of calculating holograms in under 1ms using a graphics processor unit.

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Year: 2009 PMID： 20052197 DOI： 10.1364/OE.17.022718

Source DB: PubMed Journal: Opt Express ISSN： 1094-4087 Impact factor: 3.894

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Cited

6 in total

Increasing trap stiffness with position clamping in holographic optical tweezers.

1. Effect of red light on optically trapped spermatozoa.

2. Holographic display system for restoration of sight to the blind.

3. Optical Trapping Enabled Parallel Delivery of Biological Stimuli with High Spatial and Temporal Resolution.

4. Optical disassembly of cellular clusters by tunable 'tug-of-war' tweezers.

5. Four-dimensional light shaping: manipulating ultrafast spatiotemporal foci in space and time.

6. Light-driven micro-tool equipped with a syringe function.