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WI2 - High-Order Harmonic Generation in Solids Session Presider: Zenghu Chang
10:30-11:45 Salon IV
WI2.1 -
Structure and Dynamics in Solids via High-Harmonic Generation Invited
10:30-11:00
2017-10-04 10:30 2017-10-04 11:00 America/Denver Structure and Dynamics in Solids via High-Harmonic Generation TBD Hilton Santa Fe Historic Plaza Salon IV

    S. Ghimire , Stanford, USA

    TBD
WI2.2 -
THz-driven Strong-field Dynamics in Solids: High-harmonic Generation and Quasiparticle Collisions Invited
11:00-11:30
2017-10-04 11:00 2017-10-04 11:30 America/Denver THz-driven Strong-field Dynamics in Solids: High-harmonic Generation and Quasiparticle Collisions Using intense, phase-locked multi-THz waveforms, we drive high-harmonic generation and quasiparticle collisions in solids. By exploiting the crystal symmetry, we shape the high-harmonic carrier field and control the polarization of the emitted pulse train. Many-body effects and intraband acceleration are investigated by high-order sideband generation. Hilton Santa Fe Historic Plaza Salon IV

    F. Langer , University of Regensburg, Regensburg, Germany, M. Hohenleutner , University of Regensburg, Regensburg, Germany C. Schmid , University of Regensburg, Regensburg, Germany S. Schlauderer , University of Regensburg, Regensburg, Germany U. Huttner , University of Marburg, Marburg, Germany S. Koch , University of Marburg, Marburg, Germany M. Kira , University of Michigan, Ann Arbor, MI, United States R. Huber , University of Regensburg, Regensburg, Germany

    Using intense, phase-locked multi-THz waveforms, we drive high-harmonic generation and quasiparticle collisions in solids. By exploiting the crystal symmetry, we shape the high-harmonic carrier field and control the polarization of the emitted pulse train. Many-body effects and intraband acceleration are investigated by high-order sideband generation.
WI2.3 -
High-order harmonic generation in ZnO using few-cycle mid-IR pulses generated via self-compression
11:30-11:45
2017-10-04 11:30 2017-10-04 11:45 America/Denver High-order harmonic generation in ZnO using few-cycle mid-IR pulses generated via self-compression We exploit nonlinear self-compression in YAG to generate sub-three-cycle, 10 µJ pulses from a 50 kHz mid-IR OPA. Efficiency and cutoff enhancement of generated high-order harmonics in ZnO relative to longer driving pulses demonstrates the potential for solid-state attosecond pulse generation through nonlinear self-compression. Hilton Santa Fe Historic Plaza Salon IV

    S. Gholam Mirzaeimoghadar , University of Central Florida, Orlando, FL, United States, M. Chini , University of Central Florida, Orlando, FL, United States J. Beetar , University of Central Florida, Orlando, FL, United States

    We exploit nonlinear self-compression in YAG to generate sub-three-cycle, 10 µJ pulses from a 50 kHz mid-IR OPA. Efficiency and cutoff enhancement of generated high-order harmonics in ZnO relative to longer driving pulses demonstrates the potential for solid-state attosecond pulse generation through nonlinear self-compression.