Structured linear CDEs: maximally expressive and parallel-in-time sequence models
Walker, B
Yang, L
Cirone, N
Salvi, C
Lyons, T
(23 May 2025)
What makes a good feedforward computational graph?
Vitvitskyi, A
Araújo, J
Lackenby, M
Veličković, P
Proceedings of the 42nd International Conference on Machine Learning
61635-61651
(06 Oct 2025)
Scattering off of twistorial line defects
Garner, N
Paquette, N
Journal of High Energy Physics
volume 2025
issue 5
(28 May 2025)
Modeling lesion transition dynamics to clinically characterize mpox patients with clade I MPXV in the Democratic Republic of the Congo
Nishiyama, T
Miura, F
Jeong, Y
Nakamura, N
Park, H
Ishikane, M
Yamamoto, S
Iwamoto, N
Suzuki, M
Sakurai, A
Aihara, K
Watashi, K
Hart, W
Thompson, R
Yasutomi, Y
Ohmagari, N
Kingebeni, P
Huggins, J
Iwami, S
Pittman, P
Science Translational Medicine
volume 17
issue 805
(02 Jul 2025)
Generalization and robustness of the tilted empirical risk
Aminian, G
Asadi, A
Li, T
Beirami, A
Reinert, G
Cohen, S
Proceedings of the 42nd International Conference on Machine Learning
1419-1461
(06 Oct 2025)
Non-bifurcation regulation of chaos in a memristive
Hopfield neural network
Moroz, I
Nonlinear Dynamics
Hopfield neural network
Limit cycles in planar piecewise linear systems of saddle-saddle type with a nonregular separation line
Wei, Z
Cheng, X
Duan, J
Moroz, I
Zhang, L
Discrete and Continuous Dynamical Systems - Series B
(03 Jun 2025)
Thu, 19 Jun 2025
16:00 -
17:00
C1
Unusual transport in odd-diffusive systems
Erik Kalz
(University of Potsdam)
Abstract
Odd systems, characterised by broken time-reversal or parity symmetry,
exhibit striking transport phenomena due to transverse responses. In this
talk, I will introduce the concept of odd diffusion, a generalisation of
diffusion in two-dimensional systems that incorporates antisymmetric tensor
components. Focusing on systems of interacting particles, I adapt a
geometric approach to derive effective transport equations and show how
interactions give rise to unusual transport in odd systems. I present
effects like enhanced self-diffusion, reversed Hall drift and even absolute
negative mobility that solely originate in odd diffusion. These results
reveal how microscopic symmetry-breaking gives rise to emergent, equilibrium
and non-equilibrium transport, with implications for soft matter, chiral
active systems, and topological materials.
Further Information
Erik Kalz is a PhD student at U Potsdam in the group of Ralf Metzler. The group focuses on nonequilibrium statistical physics and anomalous stochastic processes, with applications to biological and soft matter systems.