Talks

coffee, tea, cookies at 16:00 in the main hall
Monday 16:30-17:30
Seminar room 1+2
- monthly seminars -
Wednesday 15:30 - 17:00
Seminar room 4
- weekly seminars -
Monday 11:00-12:00
Seminar room 4
Wednesday 16:30 - 17:30
Seminar room 1D1
Thursday 14:00-15:00
Seminar room 4

 

 

Vorträge in chronologischer Reihenfolge

23 Oct 2024
02:00 PM

Drying Dynamics and Pattern Formation of Droplets

Mengmeng Wu (Max Planck Institute for Polymer Research)

When droplets contain nonvolatile solutes, solvent evaporation can induce complex deposition patterns on substrates or form intricate particles in a vacuum. For polymer solution droplets, we developed a coarse-grained polymer-solvent droplet model to study the particle’s formation of drying polymer solution droplets. By inducing highly entangled polymers and maintaining temperatures below the glass transition point, highly porous particles are generated followed by the cavitation of solvents. Moreover, this model is extended to study the fast evaporative cooling of droplets in a vacuum. We found that a smaller droplet has a lower crystallization temperature, allowing them to remain in a liquid state even below the homogeneous freezing point. For colloidal solution droplets, our work focused on the theoretical study of their drying dynamics and deposition patterns on substrates. Using Onsager Variational Principle, we investigated various drying droplets systems. By incorporating the contact angle hysteresis mechanism, we successfully explained the formation of multi-ring deposition patterns. Additionally, introducing surfactants into the droplet allows us to control the transition between rings-shape deposition patterns. We further extended the theory to binary droplets, where the Marangoni effect results in complex spreading dynamics on a superwetting substrate. There are still an amount of interesting and complex physical and chemical phenomena within droplets, and further exploration of these phenomena promises to provide new insights and applications in multiple research fields.

Seminarroom 4 iCal Event
23 Oct 2024
03:30 PM

IMPRS Seminar: Pattern formation by turbulent cascades

Dr. Michel Fruchart (CNRS, ESPCI and PSL University, Paris)

Fully developed turbulence is a universal and scale-invariant chaotic state characterized by an energy cascade from large to small scales at which the cascade is eventually arrested by dissipation. Here we show how to harness these seemingly structureless turbulent cascades to generate patterns. Pattern formation entails a process of wavelength selection, which can usually be traced to the linear instability of a homogeneous state. By contrast, the mechanism we propose here is fully nonlinear. It is triggered by the non-dissipative arrest of turbulent cascades: energy piles up at an intermediate scale, which is neither the system size nor the smallest scales at which energy is usually dissipated. Using a combination of theory and large-scale simulations, we show that the tunable wavelength of these cascade-induced patterns can be set by a non-dissipative transport coefficient called odd viscosity, ubiquitous in chiral fluids ranging from bioactive to quantum systems. Odd viscosity, which acts as a scale-dependent Coriolis-like force, leads to a two-dimensionalization of the flow at small scales, in contrast with rotating fluids in which a two-dimensionalization occurs at large scales. Apart from odd viscosity fluids, we discuss how cascade-induced patterns can arise in natural systems, including atmospheric flows, stellar plasma such as the solar wind, or the pulverization and coagulation of objects or droplets in which mass rather than energy cascades.

Seminarroom 4 iCal Event
23 Oct 2024
04:45 PM

IMPRS Seminar: Modelling odd transport

Pawel Matus (MPIPKS, Dresden)

In materials that break chiral symmetry, the stress response to applied strain can contain unusual coefficients dubbed odd viscosity (in fluids) or odd elasticity (in solids), both of which can be seen as special cases of a general phenomenon of odd viscoelasticity. In the first part of the talk, I will describe the first known microscopic model that produces an odd viscoelastic fluid. After coarse-graining the model, we analytically calculate the odd viscoelastic coefficients and corroborate the findings using molecular dynamics simulations. In the second part of the talk, I will introduce a 50-year old paradox present in the non-relativistic kinetic theory, according to which the rotation of the observer can induce odd transport properties in a non-rotating fluid. I will then show how the paradox can be resolved by phrasing the non-relativistic kinetic theory in the language of Newton-Cartan geometry, which is obtained from the relativistic Lorentzian geometry in the limit of the speed of light going to infinity.

Seminarroom 4 iCal Event
28 Oct 2024
04:30 PM

Colloquium

Prof. Thomas Kühne (University of Paderborn)

t.b.a.

Seminarroom 1+2+3 iCal Event
04 Nov 2024
04:30 PM

Colloquium

Prof. Heather Harrington (MPI-CBG)

t.b.a.

Seminarroom 1+2+3 iCal Event
06 Nov 2024
02:00 PM

Title t. b. a.

Antoine Deblais (University of Amsterdam)

Seminarroom 4 iCal Event
13 Nov 2024
02:00 PM

Title t. b. a.

Gianluca Teza (MPI-PKS)

Seminarroom 4 iCal Event
13 Nov 2024
04:45 PM

IMPRS Seminar

Ondrej Tichacek (IOCB Prague)

Seminarroom 4 iCal Event
27 Nov 2024
02:00 PM

Title t. b. a.

Dongliang Zhang (MPI-PKS)

Seminarroom 4 iCal Event
04 Dec 2024
02:00 PM

Title t. b. a.

Anupam Sengupta (University of Luxembourg)

Seminarroom 4 iCal Event
11 Dec 2024
02:00 PM

Title t. b. a.

Michael Hinczewski (Case Western Reserve University)

Seminarroom 4 iCal Event
11 Dec 2024
03:30 PM

IMPRS Seminar

tba (tba)

Seminarroom 4 iCal Event
11 Dec 2024
04:45 PM

IMPRS Seminar

Beck, Hubert (Charles University Prague)

Seminarroom 4 iCal Event
18 Dec 2024
02:00 PM

Title t. b. a.

Julia Eckert (University of Queensland)

Seminarroom 4 iCal Event
08 Jan 2025
02:00 PM

Title t. b. a.

Sarah Loos (University of Cambridge)

Seminarroom 4 iCal Event