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Electro-optic characterization of synthesized infrared-visible light fields

by Altwaijry, Najd , Karpowicz, Nicholas , Zimin, Dmitry , Ridente, Enrico , Weidman, Matthew , Krausz, Ferenc , Pervak, Vladimir , Kling, Matthias F. , Mamaikin, Mikhail

in 639/624/1107 / 639/766/400/3923 / 639/766/400/561 / 639/766/400/584 / Bandwidths / Cycle time / Electric fields / high-harmonic generation / Humanities and Social Sciences / Infrared radiation / multidisciplinary / NANOSCIENCE AND NANOTECHNOLOGY / optical techniques / Oscillations / Sampling / Science / Science (multidisciplinary) / Synthesis / terahertz optics / ultrafast photonics / Waveforms

2022

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Electro-optic characterization of synthesized infrared-visible light fields

by Altwaijry, Najd , Karpowicz, Nicholas , Zimin, Dmitry , Ridente, Enrico , Weidman, Matthew , Krausz, Ferenc , Pervak, Vladimir , Kling, Matthias F. , Mamaikin, Mikhail

2022

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Electro-optic characterization of synthesized infrared-visible light fields

by Altwaijry, Najd , Karpowicz, Nicholas , Zimin, Dmitry , Ridente, Enrico , Weidman, Matthew , Krausz, Ferenc , Pervak, Vladimir , Kling, Matthias F. , Mamaikin, Mikhail

2022

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Journal Article

Electro-optic characterization of synthesized infrared-visible light fields

Altwaijry, Najd,

Karpowicz, Nicholas,

Zimin, Dmitry,

Ridente, Enrico,

Weidman, Matthew,

Krausz, Ferenc,

Pervak, Vladimir,

Kling, Matthias F.,

Mamaikin, Mikhail

2022

Overview

The measurement and control of light field oscillations enable the study of ultrafast phenomena on sub-cycle time scales. Electro-optic sampling (EOS) is a powerful field characterization approach, in terms of both sensitivity and dynamic range, but it has not reached beyond infrared frequencies. Here, we show the synthesis of a sub-cycle infrared-visible pulse and subsequent complete electric field characterization using EOS. The sampled bandwidth spans from 700 nm to 2700 nm (428 to 110 THz). Tailored electric-field waveforms are generated with a two-channel field synthesizer in the infrared-visible range, with a full-width at half-maximum duration as short as 3.8 fs at a central wavelength of 1.7 µm (176 THz). EOS detection of the complete bandwidth of these waveforms extends it into the visible spectral range. To demonstrate the power of our approach, we use the sub-cycle transients to inject carriers in a thin quartz sample for nonlinear photoconductive field sampling with sub-femtosecond resolution. A continuum spanning from 300 and 3000 nm is used to synthesize a single-cycle field transient and measure its waveform through electro-optic sampling, speeding up this sensitive technique so that it can access the electric field of visible light.

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Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

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