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All-optical sampling of few-cycle infrared pulses using tunneling in a solid

Yangyang Liu, Shima Gholam-Mirzaei, John E. Beetar, Jonathan Nesper, Ahmed Yousif, M. Nrisimhamurty, Michael Chini

2021Photonics Research43 citationsDOIOpen Access PDF

Abstract

Recent developments in ultrafast laser technology have resulted in novel few-cycle sources in the mid-infrared. Accurately characterizing the time-dependent intensities and electric field waveforms of such laser pulses is essential to their applications in strong-field physics and attosecond pulse generation, but this remains a challenge. Recently, it was shown that tunnel ionization can provide an ultrafast temporal “gate” for characterizing high-energy few-cycle laser waveforms capable of ionizing air. Here, we show that tunneling and multiphoton excitation in a dielectric solid can provide a means to measure lower-energy and longer-wavelength pulses, and we apply the technique to characterize microjoule-level near- and mid-infrared pulses. The method lends itself to both all-optical and on-chip detection of laser waveforms, as well as single-shot detection geometries.

Topics & Concepts

Ultrashort pulseAttosecondLaserOpticsInfraredMaterials scienceOptoelectronicsQuantum tunnellingPhysicsLaser-Matter Interactions and ApplicationsAdvanced Fiber Laser TechnologiesTerahertz technology and applications
All-optical sampling of few-cycle infrared pulses using tunneling in a solid | Litcius