Seminars

Host: Martin Wolf Location: Building G

Workshop on “Emerging Techniques of Nanospectroscopy Based on Scanning Probe Microscopy"

Single-molecule imaging and engineering of biological and synthetic molecular motors

  • PC Department Seminar
  • Date: Nov 30, 2023
  • Time: 11:00 AM (Local Time Germany)
  • Speaker: Ryota Iino
  • Institute for Molecular Science, National Institutes of Natural Sciences, Japan
  • Location: Building G
  • Room: 2.06
  • Host: Martin Wolf
Molecular motors, an important class of molecular machines, harness various energy sources to move unidirectionally [1]. The operational principles of molecular motors are distinct from those of man-made macroscopic motors, because they have nanoscale dimensions and generally work in a solution environment where viscosity is dominant. Under these low Reynolds number, overdamped conditions, they cannot rely on inertia to sustain motion. Furthermore, they are continually agitated by random Brownian motion, which provides both challenges and opportunities for the unidirectional motion. [more]

Theory of Higgs Spectroscopy: How to Activate and Detect the Higgs Mode

  • PC Department Seminar
  • Date: Sep 27, 2023
  • Time: 11:00 AM (Local Time Germany)
  • Speaker: Dirk Manske
  • Max Planck Institute for Solid State Research, Stuttgart
  • Location: Building G
  • Room: 2.06
  • Host: Martin Wolf
Higgs spectroscopy is a new and emergent field that allows to classify and determine the superconducting order parameter by means of ultra-fast optical spectroscopy. There are two established ways to activate the Higgs mode in superconductors, namely a single-cycle ‘quench’ or an adiabatic, multicycle ‘drive’ pulse. [more]

Water Flows in Carbon Nanochannels, from Carbon Memories to Quantum Friction

The emerging field of nanofluidics explores the molecular mechanics of fluids. This world of infinitesimal fluidics is the frontier where the continuum of fluid dynamics meets the atomic nature of matter, or even its quantum nature. Nature fully exploits the fluidic oddities at the nanoscale and it is capable of breath-taking technological feats using a fluidic circuitry made of multiple biological channels, such as ionic pumps, proton engines, ultra-selective pores, stimulable channels, ... [more]
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