Spatial Light Modulator Principles
Download Principles Meadowlark Optics award-winning Spatial Light Modulators (SLMs) provide precision retardance control for spatially varying phase or amplitude requirements. Our SLMs consist of liquid
Download Principles Meadowlark Optics award-winning Spatial Light Modulators (SLMs) provide precision retardance control for spatially varying phase or amplitude requirements. Our SLMs consist of liquid
Geometric-phase microscopy (GPM) uses changes in the phase of light passing through biological specimens to yield high-resolution and high-contrast images, instead of relying on the attenuation of light used conventionally. Polarization optics and a spatial light modulator generate spatially variant polarization states of light that interact with the sample, creating a relative phase shift between transmitted and reflected light waves. By analyzing the phase information, GPM can reveal details not visible with other microscopy techniques. GPM is an effective non-invasive tool for live cell and tissue studies, with potential to enhance biological systems knowledge.
Quantum Optics Research Sources Quantum optics is a fascinating field that deals with the interaction between light and matter at the quantum level. It has
Optical Encryption Research Sources Optical encryption is a way of securing digital data like a locked door. Instead of a physical key, though, it uses
A Programmable Beam Shaping System for Tailoring the Profile of High Fluence Laser Beams ABSTRACT: Customized spatial light modulators have been designed and fabricated for
Pulse Shaping Application Note Overview: Quantum computing is a type of computing that uses the rules of quantum physics to process information. Instead of using
Pulse Shaping Application Note Overview: By modulating the phase and/or amplitude of the spectral component of broadband femtosecond lasers, it is possible to generate arbitrarily
Holographic Optical Tweezing (Hot) Application Note Overview: Holographic optical tweezing uses tightly focused laser beams to manipulate the 3D position of objects within a field
General Microscopy Application Note Overview: Much research is aimed at improving imaging in a variety of conditions such as: correcting for spherical aberrations in 3D
Psf Engineering Application Note Overview: With the recent award of the Nobel Prize to Betzig and Moerner there has been a significant increase in awareness
Fiber-Based Optical Manipulation Application Note Overview: Fiber optic communications have long been of interest, but more recently the technology is being coupled with SLMs for
Optogenetics Application Note Overview: Despite extensive research, brain function and neurological diseases are poorly understood. Complexities arise from the quantity of neurons in the brain
Volumetric Imaging Application Note Overview: In order to understand biological functions at a system level it is necessary to imageinterconnectivity of processes in real time.
Imaging In Scattering Or Turbid Media Overview: Adaptive optics was first utilized to correct for aberrations that are introduced when imaging through atmospheric turbulence. In
Sensorless Adaptive Optics for Multimode Optical Fibre Endo-Microscopy Abstract: We demonstrate focus optimisation through multimode optical fibre usingsensorless adaptive optics. The optimisation can correct for
An open source three-mirror laser scanning holographic two-photon lithography system. Use the three dots (…) below the page flip to download this resource. [dflip id=”7031″][/dflip]
Revealing architectural order with quantitative label-free imaging and deep learning Abstract: We report quantitative label-free imaging with phase and polarization (QLIPP) for simultaneous measurement of
Rapid learning of neural circuitry from holographic ensemble stimulation enabled by model-based compressed sensing Use the three dots (…) below the page flip to download
The logic of recurrent circuits in the primary visual cortex Use the three dots (…) below the page flip to download this resource. [dflip id=”7019″][/dflip]
High-performance microbial opsins for spatially and temporally precise perturbations of large neuronal networks In brief: Using structure-guided design, the authors develop second-generation ChroME-based cation channel
Deconvolution for multimode fiber imaging: modeling of spatially variant PSF Abstract: Focusing light through a step-index multimode optical fiber (MMF) using wavefront control enables minimally-invasive