PMMH’s weekly seminar is held every Friday at 11 am (map)

Contact :
Benoit Semin
Sylvain Patinet
Etienne Reyssat
responsables-seminaires (arobase)

75005 PARIS

Tel : (33) 1 40 79 45 22

Séminaire PMMH - A.M. Goryaeva (Université de Rouen)

Vendredi 27 novembre 2020 11:00-12:00 - Salle réunion PMMH 1

Reinforcing materials modelling by encoding the structures of defects in crystalline solids into distortion scores

A perfect crystal is a purely theoretical concept. Real-world crystals contain imperfections, also called defects. Identification and characterization of defects provide the crucial information for interpretation of simulations and experiments that bridge the gap between atomic- and micrometer-scales. But what is actually a concept of defects at the atomic scale ? How to define the spreading of the defect within the crystalline lattice and to understand its impact on the energy landscape of materials ? In this study, we try to answer these questions using machine learning (ML) methods and introduce a novel concept of the distortion scores of local atomic environments to reinforce the methods of atomic-scale materials modeling.

The distortion score of local atomic environments [1] describes a statistical distance from a reference structure, which, for example, can be a perfect crystal structure. Based on these distortion scores, we identify structural defects as atoms-outliers deviating from the reference structure. This score facilitates automatic localization of defects and enables their stratified description, which allows to distinguish the zones with different levels of distortion within the structure. The high sensitivity of the present approach to atomic displacement allows to detect the patterns produced by the of the elastic strain field around defects.
Beyond the localization of defects in the structure, the proposed concept of distortion scores has many advanced applications ranging from the surrogate concept for the energy per atom to the selection of the relevant structural information for the quantitative evaluation of energy barriers from the mean force. Moreover, this concept can serve for design of robust interatomic ML potentials and high-throughput analysis of their databases.

In perspective, this approach can be further extended for amorphous structures as well for interpretation of multivariate data provided by experimental techniques where the atomic coordinates are provided, such as atom probe tomography and transmission electron microscopy.

[1] A.M. Goryaeva et al. Nature Comm. 11 : 4691 (2020)


Seminars  (1)

  • Séminaire PMMH - Joe Tavacoli (München, Germany)
    Vendredi 29 janvier 11:00-12:00 - Salle réunion PMMH 1
    Programmable design and performance of modular magnetic microswimmers
    Synthetic microswimmers are promising agents for targeted in-vivo healthcare as well as important frameworks from which to advance the understanding of locomotion strategies at the microscopic scale.[1,2] Nevertheless, constructing these types of devices with flexibility of design and in large numbers remains a (...)
Information for the speakers

The audience is composed of people with rather heterogeneous backgrounds including specialists in solids, fluids, granular flows, statistical physics... so the idea is to keep your talk understandable by people not necessarily working in your field... The seminar time slot runs from 11am to noon so the best is to make the talk last around 45 minutes to leave some time for discussion.


Practical information

Laboratoire : 01 40 79 45 22
Directeur : Damien Vandembroucq
Codirecteur : Philippe Petitjeans
Administratrice : Frédérique Auger (01 40 79 45 22)
Gestionnaire : Claudette Barez (01 40 79 58 53)
Courriel : dir (arobase)