Last week the second edition of the conference "Integrability, dualities and deformations" took place at IRIS Adlershof. This conference brought together 75 expert theoretical physicists working on integrable models, worldsheet dualities, non-commutative field theory, and the gauge/gravity correspondence, to discuss the latest developments in their fields, find new connections between these related areas, and share exciting insights. In addition to 18 great talks, you could find participants excitedly discussing their computations in various spots around and in front of the IRIS building until late each day. The talks were also livestreamed to YouTube, and recordings of the individual talks will be made available in the coming weeks.
For more details see the conference website: https://indico.cern.ch/event/1139791/

Prof. Matthias Scheffler opens the joint workshop and hands-on tutorial

During the week of 25-29 July, the successful workshop and hands-on tutorial on Modeling Materials at Realistic time Scales via Optimal Exploitation of Exascale Computers and Artificial Intelligence took place. The event was hosted by IRIS Adlershof and Humboldt-Universität zu Berlin and was a collaboration between them and the Pritzker School of the University of Chicago, CECAM, NOMAD, ECAM and MICCOM.

During the first three days from 25 to 27 July, leading experts from various fields gave talks on computational applications and related artificial intelligence methods in relation to advances in materials science. On the evenings of 25 and 26 July, there were dinners with poster sessions for further scientific and collective exchange. The afternoon of 27 July was followed by an excursion to a graffiti tour at Teufelsberg followed by dinner.
The 28th and 29th of July were then used for tutorials with hands-on examples focusing on the simulation of molecular dynamics.

The experimental physicist and head of the Emmy Noether junior research group "Nonlinear Quantum Optics", Dr. Sven Ramelow, is doing research in the project "Sensors with entangled photons in the middle infrared" at IRIS Adlershof and the Department of Physics of Humboldt-Universität zu Berlin. His approach is based on quantum-based measurements with so-called undetected photons: a new method in which entangled photon pairs are used to collect measurement information in different infrared ranges without using infrared lasers or detectors. The first industry-related applications are already in the development phase with the participation of the researcher.

Sven Ramwlow has now been awarded an Einstein Junior Fellowship by the Einstein Foundation Berlin. We congratulate him warmly and look forward to continued good cooperation.