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Confocal microscopes from Leica Microsystems are partners in top level biomedical research and surface analysis in material science applications, offering unprecedented precision in three-dimensional imaging and exact examination of subcellular structures and dynamic processes.
The SP8 LIGHTNING confocal microscope offers you the following performance advantages. truly simultaneous multicolor imaging in super-resolution down to 120 nm. live specimen imaging thanks to fast acquisition rates. sample protection thanks to low phototoxicity.
STELLARIS offers Spectral Detection, Photon Counting Detectors, and Confocal Super Resolution. Multi-channel confocal imaging is easily attainable thanks to the smart user interface, ImageCompass, which guides you intuitively through your experiment set up and acquisition.
Unlike ordinary light microscopy, true confocal imaging demands illumination of a single spot as tiny as possible. The spot’s diameter is ruled by wave optics and reaches a diffraction-limited minimum at d ≈ λ/NA.
Our STimulated Emission Depletion (STED) technology joins our confocal STELLARIS platform to provide you the fastest way of imaging beyond the diffraction limit. Obtain cutting-edge nanoscopy results in no time with astounding image quality and resolution, while protecting your sample.
With its proven, high-efficiency SP detection (five channels simultaneously) and optional AOBS (Acousto Optical Bream Splitter), the Leica TCS SP5 delivers bright, noise-free images with minimal photo damage at high speed.
Streamline your complex microscopy workflows with the DMi8 inverted microscope. The platform enables you to reliably generate high quality data with solutions that you can tailor to your research requirements and budget.
Leica Application Suite X (LAS X) is the one software platform for all Leica microscopes: It integrates confocal, widefield, stereo, super-resolution, and light-sheet instruments from Leica Microsystems.
A true confocal scanning microscope focuses the light for illumination into a single spot. In order to generate a two-dimensional image, this spot must be scanned in x and y directions over the sample.
With STELLARIS CRS, you can image a wide range of specimens at high speed and resolution using different modalities: Stimulated Raman Scattering (SRS), Coherent Anti-Stokes Raman Scattering (CARS), Second Harmonic Generation (SHG), two-photon fluorescence, and visible confocal fluorescence.