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Dresden 2020 – scientific programme

The DPG Spring Meeting in Dresden had to be cancelled! Read more ...

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O: Fachverband Oberflächenphysik

O 42: Focus Session: Innovation in Machine learning PRocEsses for Surface Science (IMPRESS)

Tuesday, March 17, 2020, 10:30–13:15, TRE Phy

Self-learning and -improving algorithms, more-commonly referred to known as *machine learning*, are being increasingly used for various applications in surface science, both in theory and experiment. On the experimental side, they hold great promise to automate tedious, repetitive tasks (for example in image recognition) or allow to determine automated procedures to manipulate interfaces with STM tips. Computationally, machine learning algorithms provide the means to significantly speed up calculations without (significant) loss of accuracy or even to extract the physics determining specific processes (such as structure formations) from comparatively small data sets. The aim of this session is to provide a focussed overview over the recent applications and development of machine learning algorithms for surface science applications.

Organizers: Oliver Hoffmann (TU Graz), Patrick Rinke (Aalto University), Milica Todorović (Aaalto University)

10:30 O 42.1 Invited Talk: Exploring the Design Space of Organic Semiconductors with Machine Learning — •Harald Oberhofer
11:00 O 42.2 Invited Talk: Machine learning for molecular nanorobotics — •Christian Wagner
11:30 O 42.3 The search of new catalysts for an OCM reaction based on CO2 adsorption properties using data mining technique — •Aliaksei Mazheika, Frank Rosowski, and Ralph Kraehnert
11:45 O 42.4 Symmetry-adapted neural network representations of electronic friction to simulate nonadiabatic dynamics at metal surfaces — •Reinhard J Maurer, Yaolong Zhang, and Bin Jiang
12:00 O 42.5 SAMPLE: Surface structure search enabled by coarse graining and statistical learning — •Lukas Hörmann, Andreas Jeindl, Alexander T. Egger, and Oliver T. Hofmann
12:15 O 42.6 (Re)interpreting TCNE adsorption on Cu(111) with machine learningAlexander Egger, Lukas Hörmann, Andreas Jeindl, Milica Todorovic, Patrick Rinke, and •Oliver T. Hofmann
12:30 O 42.7 Chemicaly reasonable models for automatic interpretation of AFM images — •Prokop Hapala, Niko Oinonen, Fedor Urtev, Benjamin Alldritt, Ondrej Krejci, Filippo F. Canova, Fabian Schulz, Juho Kannala, Peter Liljeroth, and Adam S. Foster
12:45 O 42.8 Invited Talk: Theory-informed Machine Learning for Interface Structure Reconstruction from Experimental DataEric Schwenker, Chaitanya Kolluru, Spencer Hills, Arun Mannodi Kanakkithodi, Fatih Sen, Michael Sternberg, and •Maria Chan
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