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It is very sad to learn that Martin Karplus passed away on Dec 28 at age 94. He was a scholar and pioneering chemical physicist with great contributions in many areas including molecular dynamics. We interacted many times starting from my graduate time at Harvard. His legacy is…
In 1952, about to do a PhD at @Cambridge_Uni, Roger Penrose made a tetrahedral puzzle to break the ice with his fellow graduate students. 72 years later he shows us how. Watch the full video. As soothing as watching reindeer trekking across the snow: youtu.be/CD-21ytpCJU
Our Science Day has started and we are really happy about the packed lecture hall 💬🏦. After all, Christmas Eve🎄is just five days away! We wish all participants exciting insights and stimulating discussions. #Goerlitz #cityofscience #exchange
Welcome 🤗 @CASUSscience, Werner @dobrautz! Coming from @chalmersuniv, he will start his own group “AI4Quantum” focusing on e.g. #catalysis & #superconductivity challenges. @Sca_DS @DRESDEN_concept @HZDR_Dresden @tudresden_de More about him & his plans: bit.ly/welcomedobrautz
An intense day has come to an end. Many thanks for the support, the enthusiasm and all the valuable input! So many interesting things to explore and to turn new findings into action. Let's keep the pace high! 🏃 #complexsystems #sustainable #systems #science 1/3
Yesterday, State Secretary Dr. Andreas Handschuh @SMWK_SN opened the new Data Center @HZDR_Dresden. With the #IT infrastructure, the HZDR responds to the growing need for computing power for scientific activities in the field of artificial intelligence. #AI @CASUSscience #HAICORE
Staatssekretär Dr. Andreas Handschuh @SMWK_SN eröffnet das neue Data Center @HZDR_Dresden. Mit der IT-Infrastruktur reagiert das #HZDR auf den wachsenden Bedarf an Rechenpower für wissenschaftliche Aktivitäten auf dem Gebiet der Künstlichen Intelligenz. ➡️ hzdr.de/presse/data_ce…
We are delighted to welcome our partners @UFZ_de, @mpicbg, @tudresden_de & @uniwroc in December to talk about the achievements we have accomplished & the challenges we want to tackle next. Five years of @CASUSscience is a great occasion to do so, isn't it? @HZDR_Dresden #Görlitz
Dr. Jan Wilhelm, Universität Regensburg, is visiting the #CRC1415. His fantastic presentation on „Towards Real-Time Simulations of Ultrafast Electron Dynamics with Atomic Resolution“ was a great addition to our work on synthetic 2D materials.
First results from our project with Helmholtz Institute Freiberg for Resource Technology (#HIF) 🎆: The new conceptual framework for an autonomous #UAV (aka #drone) swarm is especially suitable to efficiently scan complex 🏔 environments. @HZDR_Dresden ⏩ casus.science/?page_id=12224
CP2K announcements have moved to @bluesky, see the 1st and all following posts at: @cp2k.bsky.social
Grimly apropos timing, with Eremets' passing this weekend.
Today a small opinion paper on the @arxiv: "Hydride superconductivity: here to stay" by people not directly involved in hydrides superconductivity. arxiv.org/abs/2411.10522
I'm deeply touched by Mikhail Eremets' passing. He was one of the most important scientists of our times, discoverer of high-Tc superconductivity in hydrides. His legacy in the field of high pressure physics and superconductivity is unpaired. RIP
Even though Newton's laws are deterministic, the behavior of many interacting bodies is so chaotic that it looks essentially "random." Statistical mechanics effectively says: why bother with all those complex trajectories? Just go ahead and replace them with truly random motion.
In fact, if you know the potential energy function U(x) for your system (e.g., the sum of all particle-particle interaction energies), then amazingly enough you already know exactly how the particles are distributed at equilibrium: according to the Boltzmann distribution.
We often think of an "equilibrium" as something standing still, like a scale in perfect balance. But many equilibria are dynamic, like a flowing river which is never changing—yet never standing still. These dynamic equilibria are nicely described by so-called "detailed balance"
Understanding the Wettability of C1N1 (Sub)Nanopores: Implications for Porous Carbonaceous Electrodes (Mateusz Odziomek and co-workers) @nieves_ls, @OdziomekMateusz, @MpiciPotsdam, @DynamicsCondMat #OpenAccess onlinelibrary.wiley.com/doi/10.1002/an…
onlinelibrary.wiley.com
Understanding the Wettability of C1N1 (Sub)Nanopores: Implications for Porous Carbonaceous Electr...
The common paradigm that water easily enters hydrophilic pores does not apply to C1N1 nanopores of size below a few nanometers. Using solid-state NMR, we unravel that only a negligible portion of...
I am pleased to share a current vacancy for a Chair of Physical Chemistry at the University of Paderborn. We are looking forward to exciting applications!
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