Talks

Condmat for dummies: Introduction to lattice gauge theories in condensed matter physics

Non-equilibrium networks: Alloys, boundaries and cells

IMPRS Seminar: TBA

IMPRS Seminar: TBA

Condmat for dummies: What is quantum chaos (and what not)?

Plant developmental dynamics: from cellular patterning to developmental transitions

Condmat for dummies: Physics of the Hubbard model

Biophysics of spindle assembly and microtubule associated condensates

Colloquium: tba

Colloquium: tba

Active particles in activity gradients

IMPRS seminar: tba

IMPRS seminar: Basis sets for light-matter interaction: from static coherent states to moving Gaussians

"We develop a computationally efficient way of employing Gaussian wave packets to study laser-induced electron dynamics in atomic and molecular systems by directly solving the time-dependent Schr\"odinger equation (TDSE). First, we investigate charge migration (treating the nuclei classically), high-order harmonic generation (HHG), and single-isolated attosecond pulse generation in the Hydrogen molecular ion subjected to intense laser fields in a different range of frequencies with a basis of static coherent states (SCS). Then, seeking a smarter way of constructing and guiding a minimal set of time-dependent basis functions, we introduce a fast and accurate approach for optimizing s-type Gaussian type orbitals (GTOs) and apply it to calculate electronic states of different 1D and 3D time-independent systems. Finally, we apply our optimization approach to time-dependent problems. With our approach, we obtain excellent agreement with the exact results for HHG spectra of the 1D Hydrogen atom and molecular ion exposed to intense laser fields, which is not possible even with a much larger basis of static s-type GTOs. "

IMPRS Career talk: From A PhD to a Team Master at TraceTronic GmbH Dresden

Colloquium: tba

t.b.a.

tba

Colloquium: t.b.a.

t.b.a.

Quantum Dynamics Seminar: tba

tba

Colloquium: tba