Sciences de la vie | Apprendre et partager | Leica Microsystems

Sciences de la vie

Sciences de la vie

C'est ici que vous pourrez développer vos connaissances, vos capacités de recherche et les applications pratiques de la microscopie dans divers domaines scientifiques. Apprenez à obtenir une visualisation précise, à interpréter les images et à faire progresser la recherche. Trouvez des informations pertinentes sur la microscopie avancée, les techniques d'imagerie, la préparation des échantillons et l'analyse des images. Les sujets abordés comprennent la biologie cellulaire, les neurosciences et la recherche sur le cancer, en mettant l'accent sur les applications et les innovations de pointe.

Sciences de la vie

A Guide to Fluorescence Lifetime Imaging Microscopy (FLIM)

A Guide to Spatial Biology

How to do a Proper Cell Culture Quick Check

Microscope Resolution: Concepts, Factors and Calculation

Area of a printed circuit board (PCB) which was imaged with extended depth of field (EDOF) using digital microscopy.

Depth of Field in Microscope Images

For microscopy imaging, depth of field is an important parameter when needing sharp images of sample areas with structures having significant changes in depth. In practice, depth of field is…

Dissecting microscope.

Microscopes de dissection

Si vous devez procéder à des dissections, il peut vous arriver de rester penché sur les oculaires du microscope pendant des heures. Leica Microsystems vous propose de faire votre choix parmi un large…

Image of a Siemens star, where the diameter of the 1st black line circle is 10 mm and the 2nd is 20 mm, taken via an eyepiece of a M205 A stereo microscope. The rectangles represent the field of view (FOV) of a Leica digital camera when installed with various C-mounts (red 0.32x, blue 0.5x, green 0.63x).

Understanding Clearly the Magnification of Microscopy

To help users better understand the magnification of microscopy and how to determine the useful range of magnification values for digital microscopes, this article provides helpful guidelines.

[Translate to french:] Stereo microscopes are often considered the workhorses of laboratories and production sites.

Key Factors to Consider When Selecting a Stereo Microscope

This article explains key factors that help users determine which stereo microscope solution can best meet their needs, depending on the application.

The principle of the FusionOptics technology: Of the two separate beam paths (1), one provides depth of field (2) and the other high resolution (3). In the brain, the two images of the sample are merged into a single, optimal 3D image (4).

What is the FusionOptics Technology?

Leica stereo microscopes with FusionOptics provide optimal 3D perception. The brain merges two images, one with large depth of field and the other with high resolution, into one 3D image.

Strain from using a microscope can lead to musculoskeletal pain.

Microscope Ergonomics

This article explains microscope ergonomics and how it helps users work in comfort, enabling consistency and efficiency. Learn how to set up the workplace to keep good posture when using a microscope.

A portion of an early binocular microscope developed by John Leonhard Riddel in the early 1850s.

The History of Stereo Microscopy

This article gives an overview on the history of stereo microscopes. The development and evolution from handcrafted instruments (late 16th to mid-18th century) to mass produced ones the last 150…