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Paper detail

Theory of Subcycle Linear Momentum Transfer in Strong-Field Tunneling Ionization

Interaction of a strong laser pulse with matter transfers not only energy but also linear momentum of the photons. Recent experimental advances have made it possible to detect the small amount of linear momentum delivered to the photoelectrons in strong-field ionization of atoms. We present numerical simulations as well as an analytical description of the subcycle phase (or time) resolved momentum transfer to an atom accessible by an attoclock protocol. We show that the light-field-induced momentum transfer is remarkably sensitive to properties of the ultrashort laser pulse such as its carrier-envelope phase and ellipticity. Moreover, we show that the subcycle resolved linear momentum transfer can provide novel insights into the interplay between nonadiabatic and nondipole effects in strong-field ionization. This work paves the way towards the investigation of the so-far unexplored time-resolved nondipole nonadiabatic tunneling dynamics.

preprint2020arXivOpen access
Hongcheng NiSimon BrenneckeXiang GaoPei-Lun HeStefan DonsaIva BřezinováFeng HeJian WuManfred LeinXiao-Ming TongJoachim Burgdörfer
physics.atom-ph
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Hongcheng NiSimon BrenneckeXiang GaoPei-Lun HeStefan DonsaIva BřezinováFeng HeJian WuManfred LeinXiao-Ming TongJoachim Burgdörfer

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