Leica Microsystems
Leica Microsystems is a world leader in microscopes and scientific instruments. Founded as a family business in the nineteenth century, the company’s history was marked by unparalleled innovation on its way to becoming a global enterprise.
Its historically close cooperation with the scientific community is the key to Leica Microsystems’ tradition of innovation, which draws on users’ ideas and creates solutions tailored to their requirements. At the global level, Leica Microsystems is organized in three divisions, all of which are among the leaders in their respective fields: Life Science, Industry and Medical.
The company is represented in over 100 countries with 6 manufacturing facilities in 5 countries, sales and service organizations in 20 countries, and an international network of dealers. The company is headquartered in Wetzlar, Germany.
Principles of Multiphoton Microscopy for Deep Tissue Imaging
This tutorial explains the principles of multiphoton microscopy for deep tissue imaging. Multiphoton microscopy uses excitation wavelengths in the infrared taking advantage of the reduced scattering…
Stimulated Raman Scattering Microscopy Probes Neurodegenerative Disease
Despite decades of research, the molecular mechanisms underlying some of the most severe neurodegenerative diseases, such as Alzheimer’s or Parkinson’s, remain poorly understood. The progression of…
Brief Introduction to Surface Metrology
This report briefly discusses several important metrology techniques and standard definitions commonly used to assess the topography of surfaces, also known as surface texture or surface finish. With…
Drosophila Testis Niche Stem Cells – Three Color Computational Clearing
Differentiated living beings such as humans, but also a fruit fly or a plant, possess not only the differentiated cells which form specific tissues, but also those cells whose fate is not yet (or only…
Studying the Microstructure of Natural Polymers in Fine Detail
The potential of cryogenic broad ion beam milling used in combination with scanning electron microscopy (cryo-BIB-SEM) for imaging and analyzing the microstructure of cryogenically stabilized soft…
Introduction to Ultramicrotomy
When studying samples, to visualize their fine structure with nanometer scale resolution, most often electron microscopy is used. There are 2 types: scanning electron microscopy (SEM) which images the…
Improve Cryo Electron Tomography Workflow
Leica Microsystems and Thermo Fisher Scientific have collaborated to create a fully integrated cryo-tomography workflow that responds to these research needs: Reveal cellular mechanisms at…
Development of Fluorescence Lifetime Imaging Microscopy (FLIM) and its Relevance for Functional Imaging
Prof. Ammasi Periasamy, Director, Keck Center for Cellular Imaging, University of Virginia, was interviewed by Dr. Giulia Ossato, Product Manager functional imaging, during Leica Microsystems Meets…
How to Adapt Grain Size Analysis of Metallic Alloys to Your Needs
Metallic alloys, such as steel and aluminum, have an important role in a variety of industries, including automotive and transportation. In this report, the importance of grain size analysis for alloy…
Digital Classroom Options
As teachers, you know your big challenge is to catch and keep the students’ attention and the best chance for this is by making the environment interactive. In the case of the Microscopy Classroom, we…
Alzheimer Plaques: fast Visualization in Thick Sections
More than 60% of all diagnosed cases of dementia are attributed to Alzheimer’s disease. Typical of this disease are histological alterations in the brain tissue. So far, there is no cure for this…
Expert Knowledge on High Pressure Freezing and Freeze Fracturing in the Cryo SEM Workflow
Get an insight in the working methods of the laboratory and learn about the advantages of Cryo SEM investigation in EM Sample Preparation. Find out how high pressure freezing, freeze fracturing and…
Bridging Structure and Dynamics at the Nanoscale through Optogenetics and Electrical Stimulation
Nanoscale ultrastructural information is typically obtained by means of static imaging of a fixed and processed specimen. However, this is only a snapshot of one moment within a dynamic system in…
How To Create EDOF (Extended Depth of Focus) Images
Watch this video to see how you can rapidly record sharp optical microscope images of samples with a large height variation. This is done with the optional Extended Depth of Focus (EDOF) function of…
Zebrafish Brain - Whole Organ Imaging at High Resolution
Structural information is key when one seeks to understand complex biological systems, and one of the most complex biological structures is the vertebrate central nervous system. To image a complete…
How to make a fast Z-stack
Save time for your 2D and 3D analysis. Watch this video to learn about the new user interface, LAS X.next, for the DVM6 digital microscope. The video demonstrates how to make a fast Z-Stack with a few…
Improving RNA Analysis with Laser Microdissection
Parkinson’s disease is a progressive neurodegenerative disorder connected with cell death of dopamine-releasing neurons in the brain. Differences in gene expression between individual…
What is a Spectral Detector (SP Detector)?
The SP detector from Leica Microsystems denotes a compound detection unit for point scanning microscopes, in particular confocal microscopes. The SP detector splits light into up to 5 spectral bands.…