Max-Born-Institut für Nichtlineare Optik und Kurzzeitspektroskopie im Forschungsverbund Berlin e.V.

MBI-Mitarbeiter - Persönliche Daten

Dr. Joachim Herrmann

Nicht mehr am MBI

MBI Publikationen

  1. Self-compression of 5-µm pulses in hollow waveguides M. Bock, U. Sapaev, J. E. Bae, A. Housakou, J. Herrmann, T. Nagy, U. Griebner Optics Communications 579 (2025) 131584/1-6
  2. Metallic nanostructures as electronic billiards for nonlinear terahertz photonicsI. Babushkin, L. Shi, A. Demircan, U. Morgner, J. Herrmann, A. Husakou Physical Review Research 5 (2023) 043151/1-14
  3. Ionization-induced susceptibility by nearly free electrons in gases influenced by the Coulomb potentialF. R. Arteaga-Sierra, J. Herrmann, A. Husakou Physical Review A 108 (2023) 063510/1-7
  4. Origin of internal symmetries of the fundamental interactions, the family problem, fractional quark charges, and unification in the tangent bundle geometryJ. Herrmann Letters in High Energy Physics 427 (2023) 427/1-7
  5. Towards a unified theory of the fundamental physical interactions based on the underlying geometric structure of the tangent bundleJ. Herrmann The European Physical Journal C 82 (2022) 947/1-23
  6. Deep subwavelength flow-resonant modes in a waveguide-coupled plasmonic nanocavity

    J.-S. Pae, S.-J. Im, K.-S. Song, C.-S. R, K.-S. Ho, Y.-H. Han, J. Herrmann

     Physical Review B 101 (2020) 245420/1-5
  7. Nanoscale magnetization and third-order nonlinearity by the plasmon-induced inverse Faraday effect in graphene-covered semiconductors

    C.-S. Ri, S.-J. Im, J.-S. Pae, K.-S. Ho, Y.-H. Han, J. Herrmann

     Physical Review B 100 (2019) 155404/1-7
  8. Extension of the standard model of electroweak interaction and Dark Matter in the tangent bundle geometryJ. Herrmann European Physical Journal C 79 (2019) 779/1-15
  9. Magnetoplasmonic isolators based on graphene waveguide ring resonators

    J.-S. Pae, S.-J. Im, C.-S. Ri, K.-S. Ho, G.-S. Song, Y.-H. Han, J. Herrmann

     Physical Review B 100 (2019) 041405/1-5
  10. All-optical magnetization switching by counterpropagation or two-frequency pulses using the plasmon-induced inverse Faraday effect in magnetoplasmonic stucturesS.-J. Im, J.-S. Pae, C.-S. Ri, K.-S. Ho, J. Herrmann Physical Review B 99 (2019) 041401/1-5