Tailoring the electric-field waveform of ultrashort light pulses forms the basis for controlling nonlinear optical phenomena on their genuine, attosecond timescale. Here we extend waveform control from the visible and near-infrared—where it was previously demonstrated—to the mid-infrared spectral range. Our approach yields single-cycle infrared pulses over several octaves for the first time. Sub-10-fs pulses from a carrier-envelope-phase-stabilized, Kerr-lens-mode-locked, diode-pumped Cr:ZnS laser drive cascaded intrapulse difference-frequency generation and control the electric-field evolution of the resulting coherent emission over 0.9–12.0 μm. Sub-cycle field control in this wavelength range will be instrumental for launching and steering few-femtosecond electron/hole wavepackets in low-gap materials, extending the bandwidth of electronic signal processing to multi-terahertz frequencies, as well as for electric-field-resolved molecular fingerprinting of biological systems.
T. Butler, Daniel Gerz, Christina Höfer, J. J. Xu, Christian Gaida, Tobias Heuermann, Martin Gebhardt, Lénárd Vámos, Wolfgang Schweinberger, Julia Anthea Gessner, Thomas Siefke, Martin Heusinger, Uwe D. Zeitner, A. Apolonski, Nicholas Karpowicz, Jens Limpert, Ferenc Krausz, Ioachim Pupeza
Tetiana Parker, Danzhen Zhang, David Bugallo, Kateryna Shevchuk, M. Downes, Geetha Valurouthu, Alex Inman, Benjamin Chacon, Teng Zhang, Christopher E. Shuck, Yong‐Jie Hu, Yury Gogotsi
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