Max Planck Quantum Matter Seminars Archive

Max Planck Quantum Matter Seminars Archive

Magnetism in a Transition Metal Dichalcogenide Moiré System

Max Planck Quantum Matter Seminar
Moiré heterostructures of van der Waals (vdW) materials offer a versatile and tunable two-dimensional platform for investigating strongly correlated physics, with electron density and electric field tunability as key advantages. Leveraging the remarkable optical properties of transition metal dichalcogenides, recent studies have focused on exploring magnetic correlations in these systems. In particular, heterostructures made from MoSe₂ and WS₂ have emerged as promising systems for investigating quantum magnetism, including phenomena like Nagaoka ferromagnetism [L. Ciorciaro et al., Nature 623, 509–513 (2023)]. Recent experiments [B. Polovnikov et al., arXiv:2404.05494] also hint at the presence of Ruderman-Kittel-Kasuya-Yosida (RKKY) interactions in such systems. In this talk, I will discuss our current project to design a MoSe₂/WS₂ vdW heterostructure with enhanced tunnel coupling between the layers, aiming toward the realization of a Kondo lattice. In particular, I will present our ongoing experimental efforts to detect RKKY magnetism by using magnetic circular dichroism to probe the system’s magnetization at low temperatures. [more]

The temperature dependence of the electronic structure of a tetragonal FeSe1-xSx

Max Planck Quantum Matter Seminar

Extreme polaritonic confinement in indirectly patterned hexagonal Boron Nitride

Max Planck Quantum Matter Seminar

Strong-field physics driven by quantum light

Max Planck Quantum Matter Seminar

Transient dynamics and scattering reversals in three-magnon scattering of ferromagnetic resonance

Max Planck Quantum Matter Seminar

Charge order and superconductivity in kagome materials

Max Planck Quantum Matter Seminar

Exploiting free-electron lasers for time-domain interferometry and quantum optics

Max Planck Quantum Matter Seminar
Brilliant, ultrashort, and coherent X-ray free-electron laser (FEL) pulses allow for investigation of dynamics at the inherent time and length scale of atoms which I will illustrate at the example of recent data taken in the so-called hidden phase of the Van der Waals material 1T-TaS2. However, currently missing at X-ray FELs are sequences of phase-locked pulses, desirable for time-domain correlation spectroscopies and coherent quantum control. In this seminar, I will also present a scheme to generate sub-femtosecond, phase-locked X-ray pulse pairs with up to 100 fs delay. This enables time-domain interferometry, such as the X-ray analog of the ubiquitous Fourier transform infrared spectrometer or resonant inelastic X-ray scattering, and, more generally, all of nonlinear and quantum optics requiring coherent copies of beams. S. Reiche, G. Knopp, B. Pedrini, E. Prat, G. Aeppli & S. Gerber, PNAS 119, e2117906119 (2022). [more]

The Electroluminescence of Graphene

Max Planck Quantum Matter Seminar

Quantum Matter and the Multiverse of Engineered Topology

Max Planck Quantum Matter Seminar

Atoms and light - a pairing that will surprise you

Max Planck Quantum Matter Seminar

Topological materials for future technologies

Max Planck Quantum Matter Seminar

Chiral topological semimetals: From multifold fermions with long fermi-arcs to correlation induced topological phase transitions

Max Planck Quantum Matter Seminar

Tuning of charge density waves in correlated metals – New results and insights

Max Planck Quantum Matter Seminar

Superconductivity and correlated electron ferromagnetism in a magnetically-doped transition metal dichalcogenide

Max Planck Quantum Matter Seminar

Hidden in plain sight: nano-plasmonic signatures in metallic oxides

Max Planck Quantum Matter Seminar

Spontaneous non-equilibrium magnetism via Berryogenesis in driven electronic systems

Max Planck Quantum Matter Seminar

Ultrafast terahertz and multiterahertz spectroscopy for a nonequilibrium Dirac semimetal Cd3As2 with periodic driving by light

Max Planck Quantum Matter Seminar

Tunable excited states in moiré superlattices

Max Planck Quantum Matter Seminar

Topological Twistronics

Max Planck Quantum Matter Seminar

Ultrafast Photocurrents in a topological insulator - an inside view

Max Planck Quantum Matter Seminar

THz collective modes and dynamic Kerr effects in the Weyl charge density wave material (TaSe4)2I

Max Planck Quantum Matter Seminar

Cavity Quantum Electrodynamic Control of Condensed Matter

Max Planck Quantum Matter Seminar

Nanophotonic Quantum Materials and Responses

Max Planck Quantum Matter Seminar

Non-Hermitian physics: Exceptional points, symmetry and breakdown of the bulk-boundary correspondence

Max Planck Quantum Matter Seminar

2-dimensional THz spectroscopy on ferroelectrics, semiconductors, and liquids

Max Planck Quantum Matter Seminar

Oxide interfaces: a versatile platform for material design

Max Planck Quantum Matter Seminar

Fermionic neural-network quantum states

Max Planck Quantum Matter Seminar

Superconductivity in a quintuple-layer square-planar nickelate

Max Planck Quantum Matter Seminar

Further information coming soon ...

Max Planck Quantum Matter Seminar

Femtosecond electron diffraction to probe structural dynamics in nanoscale materials

Max Planck Quantum Matter Seminar

Kagome metals

Max Planck Quantum Matter Seminar

Visualizing phase transitions in Weyl semimetal materials

Max Planck Quantum Matter Seminar

Twisted Schwinger effect: Geometric effects in carrier creation in semimetals

Max Planck Quantum Matter Seminar

Ultrafast Spin and Lattice Dynamics in Antiferromagnets

Max Planck Quantum Matter Seminar

Controlling the photostability of molecules with optical cavities - the role of non-adiabatic dynamics and dissipation

Max Planck Quantum Matter Seminar

Advances in ab initio calculations of electron-phonon couplings

Max Planck Quantum Matter Seminar

Better than nothing? The Search For Quantum Interference Based Single-molecule Insulators

Max Planck Quantum Matter Seminar

Synthesis and Electronic Structure of Nickelate Superconductors

Max Planck Quantum Matter Seminar
  • Date: Mar 4, 2021
  • Time: 11:00 AM - 12:00 PM (Local Time Germany)
  • Speaker: Danfeng Li
  • Department of Physics, City University of Hong Kong
  • Location: online via Zoom
  • Host: Ankit Disa

Sub-cycle terahertz quantum metrology

Max Planck Quantum Matter Seminar

Photo-induced Phase Transitions in Charge Density Waves

Max Planck Quantum Matter Seminar

Nematicity studied with strain-dependent ARPES

Max Planck Quantum Matter Seminar

Local magnetic measurements of quantum materials

Max Planck Quantum Matter Seminar

Pairing electrons via photons and vice versa

Max Planck Quantum Matter Seminar

Ultrafast enhancement of exchange interaction and short range spin correlations probed bymagnetoelastic coupling in CrSiTe3

Max Planck Quantum Matter Seminar
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