Thorsten Auth

You may be interested in today's BIF-IGS - HIDSS4Health - IHRS BioSoft lecture:

Towards a Virtual Cell - The Need for Actionable Perturbation Models by Fabian J. Theis (Helmholtz Munich) [Thursday, 17 July, 1:30 pm to 3:00 pm CEST]

Link for participation:
dkfz-de.zoom.us/meeting/regi...

17.07.2025 06:05 — 👍 0    🔁 0    💬 0    📌 0

AI for Research | Scite Researchers around the world use Scite to better understand research, uncover debates, ensure they are citing reliable studies, and improve their writing.

So far, I have tried this only for a published paper (see screenshot), not for an unpublished document. However, this particular function of scite.ai looks interesting to me for analyzing references in (e.g.) paper drafts not written by me.

01.06.2025 18:59 — 👍 0    🔁 0    💬 0    📌 0

If you mean checking how students referenced previous work in their writing, scite.ai may be an interesting tool. After uploading a document, it provides a list of references, allows you to easily access these references, and shows you where the references have been used.

01.06.2025 18:59 — 👍 1    🔁 0    💬 1    📌 0

Poster for the lecture series "Digital Twins in the Life Sciences".

Our @ihrsbiosoft.bsky.social, BIF-IGS, HIDSS4Health online lecture series "Digital Twins in the Life Sciences: Turning Raw Data into Dynamic Models" starts on 24 April 2025 at 2:00 pm CEST. Participation is free, join us! events.hifis.net/e/dt2025

17.04.2025 08:00 — 👍 0    🔁 0    💬 0    📌 0

Funded by the DFG Priority Programme SPP 2332 "Physics of Parasitism". Our work suggests that host-membrane tension reduces the invasion of apicomplexan parasites.

With Nishant Baruah, Jiarul Midya, Gerhard Gompper, and @anilbiophysics.bsky.social.

05.03.2025 19:56 — 👍 1    🔁 0    💬 0    📌 0

Check out Nishant's paper on the translocation of vesicles through membrane-covered pores:

- Pores below a critical size are impassable for prolate vesicles.
- Membrane tension suppresses pore translocation.

Read more: doi.org/10.1016/j.bp...
Watch a short video: youtu.be/SrbLa3U6RrQ

05.03.2025 19:52 — 👍 2    🔁 0    💬 1    📌 0

Screenshot of the Website for The 2025 Motile Active Matter Roadmap

I’m honored to be a co-author of The 2025 Motile Active Matter Roadmap! 😊
dx.doi.org/10.1088/1361...

28.01.2025 09:26 — 👍 1    🔁 0    💬 0    📌 0

I asked NotebookLM from Google to create an entertaining 'podcast' on Sameh's recent active-matter paper. It is well done! They care about both, addressing a wider audience than only experts in the field and presenting the results we discussed in the paper. :-)

www.veed.io/embed/dd50f0...

27.01.2025 07:59 — 👍 0    🔁 0    💬 0    📌 0

Motility-induced phase separation of active Brownian particles (ABPs) in a rectangular simulation box with periodic boundary conditions. A homogeneous alignment field parallel to the short axis of the box couples to the particle's dipole moments and aligns the directions of their self-propulsion velocities, which leads to an overall particle flow. In the gas-liquid coexistence regime, the ABPs phase-separate into two slabs, with a gas and a liquid phase, and the phase boundaries are oriented parallel to the field direction. This allows us to place two stacked square boxes in the center of each slab to measure the coexisting particle packing fractions for a given Peclet number, which mark points on the binodals delimiting the coexistence region. Due to the presence of defects, the packing fraction in the liquid phase is significantly lower than for hexagonal close packing.

How do active Brownian particles behave in an external alignment field? We used computer simulations to investigate gas-liquid phase coexistence, critical points, and the dynamics of spinodal decomposition. Dive into the details in Sameh's new paper! doi.org/10.1103/Phys... #ABPs #ActiveMatter

24.01.2025 08:00 — 👍 1    🔁 0    💬 0    📌 0

Finally managed to import my 15K-tweet archive on another account here: bsky.app/profile/chri...
Now on to find how to mass delete them from the xesspool

06.01.2025 09:13 — 👍 17    🔁 2    💬 1    📌 0