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  1. Article

    Open Access

    Attosecond optoelectronic field measurement in solids

    The sub-cycle interaction of light and matter is one of the key frontiers of inquiry made accessible by attosecond science. Here, we show that when light excites a pair of charge carriers inside of a solid, th...

    Shawn Sederberg, Dmitry Zimin, Sabine Keiber, Florian Siegrist in Nature Communications (2020)

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  2. No Access

    Article

    Electro-optic sampling of near-infrared waveforms

    Direct measurement of the electric field of light in the near-infrared is experimentally demonstrated, showing that careful optical filtering allows the time-resolved detection of electric field oscillations w...

    Sabine Keiber, Shawn Sederberg, Alexander Schwarz, Michael Trubetskov in Nature Photonics (2016)

  3. No Access

    Chapter and Conference Paper

    Investigation of Laser-Induced Currents in Large-Band-Gap Dielectrics

    Applying few-cycle laser pulses to dielectrics reversibly and rapidly increases their polarizability, allowing for the switching of currents at the frequency of light (Schiffrin et al., Nature 493:70–74, 2013)...

    Sabine Keiber, Tim Paasch-Colberg, Alexander Schwarz in Ultrafast Phenomena XIX (2015)

  4. No Access

    Article

    Solid-state light-phase detector

    Attosecond science relies on the use of intense, waveform-controlled, few-cycle laser pulses1 to control extreme nonlinear optical processes taking place within a fraction of an optical period. A number of techni...

    Tim Paasch-Colberg, Agustin Schiffrin, Nicholas Karpowicz in Nature Photonics (2014)