MBI Staff Member – Personal info

Position

  • Head of Department C3 "Femtosecond Spectroscopy on Solids"
  • Coordinator of Project 3.2 "Solids and Nanostructures: Electrons, Spins, and Phonons"
  • Coordinator of Project 3.3 "Transient Structures and Imaging with X-rays"

Research

I am interested in ultrafast and nonlinear phenomena in condensed matter, in particular organic and inorganic solids and nanostructures. To this end, I generate and apply ultrashort pulses in a wide spectral range (THz to hard x-ray) to measure the nonequilibrium dynamics of elementary excitations in solids and the ultrafast structural dynamics of crystalline material. Most recent activities are two-dimensional spectroscopy in the THz frequency range (Figure: two phonon coherences in InSb) and femtosecond x-ray absorption experiments using table top high harmonic sources.

Curriculum vitae

1981-1988 Study of physics at the Technical University (TU) of Munich

1988-1991 PhD Work at TU Munich, Physics Department E11 (Prof. W. Kaiser)

1991 Graduation (Dr. rer. nat.) at the TU

1991-1993 Postdoctoral Researcher at the Physics Department E11, TU Munich

1993-1996 Postdoctoral Researcher at the Max-Born-Institute, Berlin

1997 Postdoctoral Researcher at Bell Laboratories (Lucent), Holmdel, NJ, USA

since 1997 Department head of C3 at the Max-Born-Institute, Berlin

1999 Habilitation at the Humboldt University Berlin

Recent highlight(s)

Electric polarization in the macroscopic world and electrons moving at atomic scales

Wiggling atoms switch the electric polarization of crystals

Quantum Swing - a pendulum that moves forward and backwards at the same time

Amplification of Sound Waves at Extreme Frequencies

Hot means slow: Electron plasma oscillations tuned down with light

The longer the better: Optical long-wavelength pulses generate brilliant ultrashort hard x-ray flashes

MBI Publications

  1. Tunable 50 fs pulses in the visible by up-conversion of parametrically generated pulses in the near infrared

    M. Sueptitz, R.A. Kaindl, S. Lutgen, M. Woerner, E. Riedle

    Ultrafast Phenomena X Springer Berlin (1996) 36-37
  2. 1 kHz solid state laser system for the generation of 50 fs pulses tunable in the visible

    M. Sueptitz, R. A. Kaindl, S. Lutgen, M. Woerner, E. Riedle

    Opt. Commun. 131 (1996) 195-202
  3. Coherent and incoherent dynamics large molecules in solution studied on a 20 femtosecond time scale

    E. Riedle, T. Hasche, S.H. Ashworth, M. Woerner, T. Elsaesser

    Ultrafast Phenomena X Springer Berlin (1996) 282-283
  4. Tunable two-color spectrometer with sub-20 fs pump and probe pulses

    E. Riedle, S.H. Ashworth, M. Joschko, M. Woerner, T. Elsaesser

    Femtochemistry: Ultrafast Chemical & Physical Processes in Molecular Systems World Scientific, Singapore (1996) 680-684
  5. Two color spctroscopy of the vibrational and vibronic dynamics of large molecules in solution with 20 fs optical pulses

    E. Riedle, S.H. Ashworth, T. Hasche, M. Woerner, T. Elsaesser

    Femtochemistry: Ultrafast Chemical and Physical Pocesses in Molecular Systems World Scientific, Singapore (1996) 521-526
  6. Time resolved dynamics of holes in p-type germanium photoexcited by femtosecond infrared pulses

    M.T. Portella-Oberli, W. Frey, C. Ludwig, M. Woerner, T. Elsaesser, W. Kaiser

    Brazilian J. of Phys. 26 (1996) 520-524
  7. Nonequilibrium dynamics in a quasi-two-dimensional electron plasma after ultrafast intersubband excitation

    S. Lutgen, R.A. Kaindl, M. Woerner, T. Elsaesser, A. Hase, H. Künzel, M. Gulia, D. Meglio, P. Lugli

    Phys. Rev. Lett. 77 (1996) 3657-3660
  8. Nonlinear intersubband absorption of a hot quasi-two dimensional electron plasma studied by femtosecond infrared spectroscopy

    S. Lutgen, R.A. Kaindl, M. Woerner, T. Elsaesser, A. Hase, H. Künzel

    Phys. Rev. B 54 (1996) 17343-17346
  9. Heavy-light hole quantum in the band-to-band continuum of bulk GaAs studied in 20 femtosecond pump-probe experiments

    M. Joschko, M. Woerner, T. Elsaesser, R. Hey, H. Kostial, K. Ploog

    Ultrafast Phenomena X Springer Berlin (1996) 395-396
  10. Exact block diagonalization of the eight-band Hamiltonian matrix for tetrahedral semiconductors and its application to strained quantum wells

    P. Enders, M. Woerner

    Semicond. Sci. & Technol. 11 (1996) 983-988