WebThe Optical Stretcher is a dual-beam optical trap that is used for trapping and deforming micrometer-sized soft matter particles, such as biological cells in suspension. The forces used for trapping and deforming objects arise from photon momentum transfer on the surface of the objects, making the Optical Stretcher - unlike atomic force microscopy or … WebThe PZ1 series are the high-speed members of Optiphase’s family of fiber stretchers. At the core of the PZ1 high-speed fiber stretchers is a fiber wound piezoelectric element for use in a wide range of optical interferometric measurement and sensing system applications. Optiphase’s expertise in the design, manufacture and use of all-fiber ...
Optical Trapping - Max Planck Institute for the Science of Light
The Optical Stretcher is a dual-beam optical trap that is used for trapping and deforming ("stretching") micrometer-sized soft matter particles, such as biological cells in suspension. The forces used for trapping and deforming objects arise from photon momentum transfer on the surface of the objects, making … See more The trapping of micrometer-sized particles by two laser beams was first demonstrated by Arthur Ashkin in 1970, before he developed the single-beam trap now known as optical tweezers. An advantage of the single-beam … See more A typical optical stretcher setup consists of the following main parts: • A microfluidic system. Typically, a suspension of … See more Cell mechanics and cell rheology play a crucial role in cellular development and also in many diseases. Due to its high throughput, the optical stretcher has in many biomechanical … See more Physical origin of the forces in the optical stretcher Objects trapped in the optical stretcher usually have … See more WebEvanescent Optics Inc. Request Info. Model 915B Piezo-electric fiber stretcher provides up to 16um stretch for 9m of fiber from DC to 10kHz falling off to 0 @ 100kHz. Fiber is … cim meaning dt
Eye Surgery Stretchers and Accessories - MFI Medical
WebFeb 18, 2005 · Microfluidic optical stretcher. The setup of the microfluidic optical stretcher was essentially the same as described in reference (Guck et al., 2001). Instead of the Ti-Sapphire laser system, an Ytterbium-doped fiber laser emitting at a wavelength of 1064 nm was used as light source (YLD-10-1064, IPG Photonics, Oxford, MA). WebOct 24, 2001 · Abstract and Figures We present a useful tool for manipulating biological sarnples in microscopy. Cells and cell organelles can be trapped. moved and stretched … WebThe optical stretcher operation was tested using microbeads and red blood cells solutions. The prototype presented in this work demonstrates the feasibility of this approach, which should guarantee real mass production of ready-to-use lab-on-chip devices. Keywords: dhol sounds