MBI Staff Member – Personal info

Dr. Georg Korn

No longer employed at MBI

MBI Publications

  1. Generation of multiple phase-locked stokes and anti-stokes components in an impulsively excited raman medium

    A. Nazarkin, G. Korn, M. Wittmann, T. Elsaesser

    Physical Review Letters 83 (1999) 2560-2563
  2. Laser-diode-seeded operation of a femtosecond optical parametric amplifier with MgO: LiNbO3 and generation of 5-cycle pulses near 3 mm

    F. Rotermund, V. Petrov, F. Noack, M. Wittmann, G. Korn

    Journal of the Optical Society of America B 16 (1999) 1539-1545
  3. Observation of raman-self-conversion of fs-pulse frequency due to impulsive excitation of molecular vibrations

    G. Korn, O. Dühr, A. Nazarkin

    Physical Review Letters 81 (1998) 1215-1216
  4. Observation of Raman self-conversion of fs-pulse frequency due to impulsive excitation of molecular vibrations

    G. Korn, O. Dühr, A. Nazarkin

    Ultrafast Phenomena XI '98 Springer Verlag Berlin (1998) 78-80
  5. Raman self-conversion of femtosecond laser pulses and generation of single-cycle radiation

    A. Nazarkin, G. Korn

    Physical Review A 58 (1998) R61-R64
  6. Generation of self-compressed laser pulses under the condition of two-photon resonant difference-frequency mixing in gases

    A. Nazarkin, G. Korn

    Optics Communications 153 (1998) 184-190
  7. A tunable ultrafast spectrometer based on hollow waveguides: Demonstration in the violet-blue

    O. Dühr, E.T.J. Nibbering, G. Korn

    Applied Physics B 67 (1998) 525-527
  8. Femtosecond-pulse two-photon resonant difference-frequency mixing in gases: a technique for tunable VUV fs-pulse generation and a spectroscopic tool for studying atoms in strong laser fields

    A. Nazarkin, O. Kittelmann, G. Korn, J. Ringling, I. V. Hertel

    Physical Review A 56 (1997) 671-684
  9. Coherent propagation effects and pulse self-compression under the conditions of two-photon resonant difference frequency mixing

    A. Nazarkin, G. Korn

    Phys. Rev. A 56 (1997) 5187-5190
  10. Generation of intense tunable 20 fs pulses near 400 nm using a gas-filled hollow waveguide

    E.T.J. Nibbering, O. Dühr, G. Korn

    Opt. Lett. 22 (1997) 1335-1337