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With the STELLARIS confocal platform, we have re-imagined confocal microscopy to get you closer to the truth.
Discover new applications by combining confocal and light-sheet microscopy
The contrast is clear. Lifetime imaging in an instant.
STELLARIS brings the full power and potential of STED in a fully integrated system.
STELLARIS 8 DIVE (Deep In Vivo Explorer) is a multiphoton microscope with spectrally tunable detection.
Label-free imaging of native specimens
Smart monitoring and service option for your microscope
Webinar - Dynamic Molecular Imaging Insights for Structural Biology
Join a Conversation about Structural Biology & Functional Imaging
Wednesday 16th September
London 16:00 | Berlin 17:00 | Dubai 19:00
New Leica platform adds an additional dimension of information to confocal imaging
STELLARIS, designed to empower researchers to drive progress in science, is confocal microscopy re-imagined
STELLARIS - #ConfocalReImagined
We have re-imagined confocal imaging. See the World Premiere of our new Confocal Platform.
End-of-life of Microsoft Windows 7
Upgrade your Confocal Control Workstation. Speak to your Service Engineer or contact our support team to discuss the best option for your confocal…
Leica Microsystems and University Mainz cooperate for a Microscopy Reference Center
New center with focus on innovation for light microscopy is located at University Medical Center in Mainz, Germany
Plant Cell Development and Morphogenesis
The article discusses how tubulin molecules, which make up microtubules, in plant cells can be studied with total internal reflection fluorescence…
Image Gallery: THUNDER Imager
To help you answer important scientific questions, THUNDER Imagers eliminate the out-of-focus blur that clouds the view of thick samples when using…
Laser Microdissection Publication List
This list presents current publications in the major application fields for laser microdissection and is updated monthly.
A New World of Confocal Applications with the Next Generation White Light Lasers
As biological questions get more complex, there is an increasing need to study multiple events simultaneously in the same specimen. When preparing the…
Immediate Breast Reconstruction: Benefits of GLOW800 Augmented Reality
Dr. Harold Chatel is a Plastic and Reconstructive Surgeon in a leading hospital in Paris, France. One of his areas of expertise is oncological…
Oncological Reconstructive Surgery with the Leica M530 OHX Microscope
Precision is essential in oncological reconstructive surgery, in particular when it relies on free flap techniques. Microsurgical microscopes provide…
Oncological Reconstructive Surgery: Why Use a Microscope
Recent advances in microsurgery are enhancing breast reconstruction for oncology patients, allowing both functional and aesthetic rehabilitation. More…
Oncological Reconstructive Surgery: Benefits of Microscope & Integrated Vascular Fluorescence Use
Oncological reconstructive surgery requires high precision and attention to details. It can pose a number of challenges: long operating time, flap…
Confocal Laser Scanning Microscopy (CLSM) is one of a series of methods to generate slices from microscopic samples by means of optics. The sample stays intact, and the slicing may be repeated many times. True Confocal Scanning (TCS) is a technique, where only a single, diffraction limited spot is illuminated and observed at a time. The benefit of confocal imaging is a dramatically increased contrast by removal of out-of-focus haze. Z-sequences of optical slices (3D image stacks) are sources for subsequent rendering as anaglyphes, depth-coded maps or 3D movies. TCS is also very well compatible with multi-fluorescence imaging, time-lapse imaging, FLIM, FRAP and