top tier feature i’ll miss the most

completely destroyed after 13h flight. already missing korea ngl

A big step for better ways to look at small things: Automated discovery of experimental designs in SR microscopy! A wonderful collaborative effort with Carla Rodríguez, Sören Arlt, and Mario Krenn. Paper: rdcu.be/d2107 PR: tinyurl.com/3a5237xu

10,000 times faster! Scientists developed an #artificialintelligence framework which discovers experimental designs in #microscopy. More on the collab of the “Artificial Scientist Lab” led by Mario Krenn & “Physical Glycoscience” led by Leonhard Möckl 👉 bit.ly/MPL-XLuminA

Accelerating super-resolution microscopy design with XLuminA Super-resolution microscopy has significantly advanced optical imaging, yet the vast experimental design space remains largely unexplored. Addressing this, Rodríguez and coauthors introduce XLuminA, a computational

Another "10,000x faster" type of breakthrough. We've been accelerating enormously over the last few weeks. Researchers have developed an AI framework revolutionizing microscopy by autonomously designing experiments. Named XLuminA, the platform optimizes processes 10,000 times

Paper read today #612: Automated discovery of experimental designs in super-resolution microscopy with XLuminA nature.com/articles/s4146… The idea of the general virtual optical table is very cool.

Researchers introduce XLuminA, a fast, open-source, #AI-based optics simulator designed to uncover new optical designs. It is demonstrated for rediscovering the framework of #SuperResolution #STED #Microscopy, among other applications. See the article: go.nature.com/41LqMCL

ÅNGSTRÖM-RESOLUTION IMAGING OF CELL-SURFACE GLYCANS🍬🍬🍬 For the first time, we are able to image the molecular architecture of the glycocalyx at Ångström resolution. A dream come true! Read the preprint: biorxiv.org/content/10.110… And find our tweetorial below! #glycotime

We built an AI model to simulate how a fruit fly walks, flies and behaves – in partnership with HHMI | Janelia. 🪰 Our computerized insect replicates realistic motion, and can even use its eyes to control its actions. Here’s how we developed it – and what it means for science. 🧵

The humans behind the Artificial Scientist Lab Max Planck Society Universität Tübingen 🤘