The best optical microscopes only offer about 2000X magnification of a sample, whereas some electron microscopes can magnify a sample by 50 million times; in contrast, 2 million times is more typical. This works out to a resolution limit of about 0.1 nanometers, allowing the observation of ind...
TEM is an important microscopy tool for chemical and structural characterization of materials at the nanoscale. It provides important details about complex microstructures, such as grain boundary or interface chemistries and orientations. The most powerful TEMs can produce atomic resolution images at the...
Unfortunately, they do not have excellent resolution, so the image may be blurry. Stereoscopic microscopes, as the name implies, provide a 3-D picture of bisected items, like muscle tissue or an organ. In this case, magnification is poor, so the viewer can't make out separate cells, but...
Scanning tunneling microscopes, another popular class of high-precision microscopes, usually have better resolution than AFMs, but an advantage of AFMs is that they can be used in a liquid or gas ambient environment whereas an STM must operate in high vacuum. This allows for the imaging of we...
Our updated AI-assisted tool now offers an enhanced feature set to cater to your needs. With the latest version, you can generate a multi-class segmentation from a single sparsely annotated image within the Segmentation+ workroom. One of the key advancements of this update...
Microscopes come in all shapes, sizes and types. The basic function of a microscope is to look at objects that can't be seen with the naked eye.
Although recent innovations in software help to minimize, TEM resolution is hampered by spherical and chromatic aberrations. The TEM is a popular choice for nanotechnology as well as semiconductor analysis and production. Scanning Electron Microscopes ...
Finally, it will be possible now to create and reuse a trained model for deep learning in the Segmentation+ Workroom. All these innovative tools can improve efficiency and accelerate cellular ultrastructure analysis. This understanding is critical for advancing knowledge in areas such as cell biology...
What is cryo-EM? Cryo-EM: cryo electron microscopy Cryo-electron microscopy (cryo-EM) describes a collection of techniques used to analyze cryogenically frozen samples in specially designed transmission electron microscopes (cryo-TEMs). Recent advancements, including improved sample preparation tools, ...
What is Co-packaged Optics? Co-packaged optics is an approach that aims to address growing challenges around bandwidth density, communication latency, copper reach, and power efficiency. Read More Case Study LightPath Designs Aspheric Lenses with Help from Ansys OpticStudio ...