Twin optical traps for two-particle cross-correlation measurements: Eliminating cross-talk

Atakhorrami, M.; Addas, K.; Schmidt, Christoph F.

doi:10.1063/1.2898407

Cited by 30 publications

(27 citation statements)

References 32 publications

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“…The utility of microrheology to probe nanoscale structure and response in colloid-polymer suspensions was demonstrated by Chen et al who employed one-and two-point microrheology to study the depletion layer surrounding the probe particle [319]. In order to eliminate crosstalk between the trapping beams in two-bead microrheology, Atakhorrami et al employed two independent lasers of different wavelengths [320].A rich field of its own is the microrheology of living cells. The cell cytoskeleton is a highly dynamical system of biopolymers and auxiliary crosslinking proteins with rich kinetics of the crosslinkers and the polymerization-depolymerization cycles of the filaments themselves.…”

mentioning

confidence: 98%

Light at work: The use of optical forces for particle manipulation, sorting, and analysis

2008

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We review the combinations of optical micro-manipulation with other techniques and their classical and emerging applications to non-contact optical separation and sorting of micro- and nanoparticle suspensions, compositional and structural analysis of specimens, and quantification of force interactions at the microscopic scale. The review aims at inspiring researchers, especially those working outside the optical micro-manipulation field, to find new and interesting applications of these methods.

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confidence: 98%

Light at work: The use of optical forces for particle manipulation, sorting, and analysis

2008

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“…However, it is difficult to completely isolate the trap from environmental sources of noise such as laser pointing stability and thermal drift of the microscope alignment. Various methods have been implemented to reduce such noise and include the development of dual trap techniques [12,13,14] where a second trapped particle is measured simultaneously. Since the drift affects both particles it can be eliminated from the data.…”

Section: Allan Variance Of Position Measurementsmentioning

confidence: 99%

Measuring the accuracy of particle position and force in optical tweezers using high-speed video microscopy

Gibson¹,

Leach²,

Keen³

et al. 2008

Opt. Express

195

161

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Abstract:We assess the performance of a CMOS camera for the measurement of particle position within optical tweezers and the associated autocorrelation function and power spectrum. Measurement of the displacement of the particle from the trap center can also be related to the applied force. By considering the Allan variance of these measurements, we show that such cameras are capable of reaching the thermal limits of nanometer and femtonewton accuracies, and hence are suitable for many of the applications that traditionally use quadrant photodiodes. As an example of a multi-particle measurement we show the hydrodynamic coupling between two particles.

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“…The squeezing flow leads to shear strain in the sample with an amplitude of ~10 -6 , ensuring linear elastic response. Microrheology measurements were performed with a custom-built dual optical tweezers set-up [25].…”

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confidence: 99%

Scale-Dependent Nonaffine Elasticity of Semiflexible Polymer Networks

et al. 2014

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The cytoskeleton of eukaryotic cells provides mechanical support and governs intracellular transport. These functions rely on the complex mechanical properties of networks of semiflexible protein filaments. Recent theoretical interest has focused on mesoscopic properties of such networks and especially on the effect of local, non-affine bending deformations on mechanics. Here, we study the impact of local network deformations on the scale-dependent mobility of probe particles in entangled networks of semiflexible actin filaments by high-bandwidth microrheology. We find that micronsized particles in these networks experience two opposing non-continuum elastic effects: entropic depletion reduces the effective network rigidity, while local non-affine deformations of the network substantially enhance the rigidity at low frequencies. We show that a simple model of lateral bending of filaments embedded in a viscoelastic background leads to a scaling regime for the apparent elastic modulus G '(! )~! 9 16 ,

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Twin optical traps for two-particle cross-correlation measurements: Eliminating cross-talk

Cited by 30 publications

References 32 publications

Light at work: The use of optical forces for particle manipulation, sorting, and analysis

Light at work: The use of optical forces for particle manipulation, sorting, and analysis

Measuring the accuracy of particle position and force in optical tweezers using high-speed video microscopy

Scale-Dependent Nonaffine Elasticity of Semiflexible Polymer Networks

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