Impetux Sensocell Optical Trap – Imaging & Optics Facility

Impetux Sensocell Optical Trap - Image 2

Impetux Sensocell Optical Trap - Image 3

Optical Tweezers can be used for studying mechanical properties of molecules, soft matter, tissues or cells. Optical tweezers make use of highly focused laser beams that can trap and manipulate microscopic particles, such as beads, liquid condensates, colloids and soft matter physics characterization, biological tissues & cells and even molecules.

Optical tweezers operate based on the principles of light momentum transfer. When a laser beam is focused through a high numerical aperture (NA) lens, it creates a strong electric field gradient. This gradient exerts a force on dielectric particles, drawing them towards the region of highest intensity, typically the focal point of the laser beam.This technique can be applied to perform rheology fields, particularly biology, material science and (soft-matter) physics. Learn more about optical traps on the Optical Trap Tutorial website

Category: Force probing Tags: charged, Level 3

Description
Additional information

Description

Location: room i04.U1.019

The Impetux Optical Trap is available on the Nikon X-light V3-01 Spinning disk.

Optical Trap Specifications

Trapping-laser: 5W, 1064nm infrared laser (Laser Safety Class 4).

up to 256 optical traps
Versatile manipulation options: Trajectories, oscillations, pattern morphing

Optical Trap Applications:

Trapping-laser: 5W, 1064nm infrared laser (Laser Safety Class 4).
up to 256 optical traps
Optimized optical design for an excellent optical trapping efficiency.
Versatile manipulation options: Trajectories, oscillations, pattern morphing

Optical Tweezers force spectroscopy sensor

The Optical Tweezers force spectroscopy sensor based on light momentum analysis, and allows direct – calibration free- force measurements on on irregular & non-spherical objects. A force spectroscopy method independent of sample & medium properties

Specifications:

Direct force measurements: no calibrations needed.
Simultaneous force measurements for multiple independent traps.
High Numerical-Aperture (NA=1.4) immersion optics. Optical design optimized for λ=1064 nm.
Maximum laser power at the sample: 300 mW.
Force resolution <50 fN.
Position resolution: 1 nm (typ.).
Up to 100 kHz, 18-bit, analog-to-digital conversion.

Optical Trap: recommended reading

A force detection technique for single-beam optical traps based on direct measurement of light momentum changes (2010) A. Farre & M Montes-Usategui
A force measurement instrument for optical tweezers based on the detection of light momentum changes (2015) A. Farre et al, Optics Express

Applications

Direct Force Measurements of Subcellular Mechanics in Confinement using Optical Tweezers (2021) F. Catala-Castro et al., JOVE → bead rheology protol in zebrafsh embryo
Stochastic force dynamics of the model microswimmer Chlamydomonas reinhardtii : Active forces and energetics (2021), C. Jones et al., Physical Review E → trapping of moving micro-organisms
Preparation of chambers for optical trap, by Impetux → (available for ISTA internal only)

Additional information

Building	i04
Camera / Detector	sCMOS
System_Specification	Incubation: heating chamber
Technology / Application	Optical Trap / Tweezers

Description

Additional information

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