European Physical Society

BREAKING NEWS The Royal Swedish Academy of Sciences has decided to award the 2024 #NobelPrize in Physics to John J. Hopfield and Geoffrey E. Hinton “for foundational discoveries and inventions that enable machine learning with artificial neural networks.” This year’s two Nobel Prize laureates in physics have used tools from physics to develop methods that are the foundation of today’s powerful machine learning. John Hopfield created an associative memory that can store and reconstruct images and other types of patterns in data. Geoffrey Hinton invented a method that can autonomously find properties in data, and so perform tasks such as identifying specific elements in pictures. When we talk about artificial intelligence, we often mean machine learning using artificial neural networks. This technology was originally inspired by the structure of the brain. In an artificial neural network, the brain’s neurons are represented by nodes that have different values. These nodes influence each other through connections that can be likened to synapses and which can be made stronger or weaker. The network is trained, for example by developing stronger connections between nodes with simultaneously high values. This year’s laureates have conducted important work with artificial neural networks from the 1980s onward. John Hopfield invented a network that uses a method for saving and recreating patterns. We can imagine the nodes as pixels. The Hopfield network utilises physics that describes a material’s characteristics due to its atomic spin – a property that makes each atom a tiny magnet. The network as a whole is described in a manner equivalent to the energy in the spin system found in physics, and is trained by finding values for the connections between the nodes so that the saved images have low energy. When the Hopfield network is fed a distorted or incomplete image, it methodically works through the nodes and updates their values so the network’s energy falls. The network thus works stepwise to find the saved image that is most like the imperfect one it was fed with. Geoffrey Hinton used the Hopfield network as the foundation for a new network that uses a different method: the Boltzmann machine. This can learn to recognise characteristic elements in a given type of data. Hinton used tools from statistical physics, the science of systems built from many similar components. The machine is trained by feeding it examples that are very likely to arise when the machine is run. The Boltzmann machine can be used to classify images or create new examples of the type of pattern on which it was trained. Hinton has built upon this work, helping initiate the current explosive development of machine learning. Learn more Press release: https://bit.ly/4gCTwm9 Popular information: https://bit.ly/3Bnhr9d Advanced information: https://bit.ly/3TKk1MM

Congratulations to this year's Nobel Prize winners in Physics! Machine Learning and Neural Networks are essential tools for modern physics research.

🌌 EPS calendar 2024 in September: Our inspiring physicist is Grazina Tautvaisiene, president of the Lithuanian Physical Society. Professor Tautvaišienė is an astrophysicist who was among the first to model the chemical evolution of the Milky Way and the neighbouring Large and Small Magellanic Cloud galaxies. 👉 https://lnkd.in/dkyKBcBS About the calendar 👉 https://lnkd.in/dUscgAaG Deutsche Physikalische Gesellschaft e. V. (DPG) European Southern Observatory Ulrike Boehm Antigone Marino Sébastien Mouchet Lorena Ballesteros Ferraz Riccardo Muolo EDP Sciences Rachel Won 💫 Stay tuned for more news!

This week #SolarPhysics is at the 17th European Solar Physics Meeting of the European Physical Society: Come talk to our Editors-in-Chief, Lidia van Driel-Gesztelyi and Cristina Mandrini, or visit our promo desk!

📨 The latest issue of e-EPS is out. Enjoy your reading! 👉 https://lnkd.in/dY2aSneb Plasma Physics Division of the European Physical Society American Physical Society European Research Council (ERC) Discovery Space Erasmus+ project

Neutrinos are often called ghost particles: because they can pass through matter almost effortlessly. These guys are therefore extremely hard to catch. And catching them is the mission of the largest neutrino detector in the world: The IceCube neutrino telescope. The IceCube detector consists of more than 5000 light sensors, known as Digital Optical Modules (DOM), which are melted into the ice of the South Pole at a depth of up to 2500 metres on 86 cables. Since its completion in 2010, IceCube has detected high-energy neutrinos from cosmic accelerators such as active galactic cores and from our own Milky Way galaxy. And now it's time for an upgrade; seven new cables with more than 700 optical sensors will be placed close to each other in the centre of IceCube. They will increase the sensitivity of the research ice cube and will allow to measure the properties of low-energy neutrinos generated in our atmosphere with the highest accuracy. The shipment of the first 128 sensors (which look a little like droids with lots of eyes) built at DESY are now on their way to Antarctica where IceCube is installed. Looking forward to the neutrinos, which will give us insights in cosmic events. More info: https://lnkd.in/eTQKF4N3

👏 👏 Congratulations on your new website ALBA Synchrotron!

Currently, 15 young researchers from ten countries have the unique opportunity to focus intensively on the topic of cosmic radiation. The renowned summer school for radiation research is jointly organized by the European Space Agency - ESA and FAIR/GSI. The participants come from various European countries as well as Canada and the USA. https://lnkd.in/ewFituJ6 #science #physics #astrophysics #darmstadt #accelerator #research #cosmicradiation #space #training

🤩 This week CMD31, the 31st Conference of the EPS Condensed Matter Division, takes place in Braga, Portugal. 👉 Programme at a glance: https://lnkd.in/d-H2AD_2 #CondensedMatter

#AI textbooks and chatbots are transforming how students learn. But should they? 🍎🤖 This fall, over 100 Canadian universities and colleges are integrating new AI tools into their curriculum. What do you think? #education