Aurelien Grabsch
Overview
Explore the profile of Aurelien Grabsch including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
8
Citations
1
Followers
0
Related Specialties
Related Specialties
Co-Authors
Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Grabsch A, Moriya H, Mallick K, Sasamoto T, Benichou O
Phys Rev Lett
. 2024 Sep;
133(11):117102.
PMID: 39331991
The symmetric simple exclusion process (SEP), where diffusive particles cannot overtake each other, is a paradigmatic model of transport in the single-file geometry. In this model, the study of currents...
2.
Grabsch A, Benichou O
Phys Rev Lett
. 2024 Jun;
132(21):217101.
PMID: 38856256
Single-file systems, in which particles diffuse in narrow channels while not overtaking each other, is a fundamental model for the tracer subdiffusion observed in confined geometries, such as in zeolites...
3.
Grabsch A, Berlioz T, Rizkallah P, Illien P, Benichou O
Phys Rev Lett
. 2024 Feb;
132(3):037102.
PMID: 38307067
Single-file transport refers to the motion of particles in a narrow channel, such that they cannot bypass each other. This constraint leads to strong correlations between the particles, described by...
4.
Grabsch A, Rizkallah P, Poncet A, Illien P, Benichou O
Phys Rev E
. 2023 May;
107(4-1):044131.
PMID: 37198815
Single-file diffusion refers to the motion of diffusive particles in narrow channels, so that they cannot bypass each other. This constraint leads to the subdiffusion of a tagged particle, called...
5.
Grabsch A, Rizkallah P, Illien P, Benichou O
Phys Rev Lett
. 2023 Jan;
130(2):020402.
PMID: 36706397
Tracer dynamics in the symmetric exclusion process (SEP), where hard-core particles diffuse on an infinite one-dimensional lattice, is a paradigmatic model of anomalous diffusion. While the equilibrium situation has received...
6.
Poncet A, Grabsch A, Benichou O, Illien P
Phys Rev E
. 2022 Jun;
105(5-1):054139.
PMID: 35706275
We develop a general method to calculate the exact time dependence of the cumulants of the position of a tracer particle in a dense lattice gas of hardcore particles. More...
7.
Grabsch A, Poncet A, Rizkallah P, Illien P, Benichou O
Sci Adv
. 2022 Mar;
8(12):eabm5043.
PMID: 35333581
In single-file transport particles diffuse in narrow channels while not overtaking each other. it is a fundamental model for the tracer subdiffusion observed in confined systems, such as zeolites or...
8.
Poncet A, Grabsch A, Illien P, Benichou O
Phys Rev Lett
. 2021 Dec;
127(22):220601.
PMID: 34889628
Single-file diffusion refers to the motion in narrow channels of particles which cannot bypass each other, and leads to tracer subdiffusion. Most approaches to this celebrated many-body problem were restricted...