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Controlling photoionization using attosecond time-slit interferences.


ABSTRACT: When small quantum systems, atoms or molecules, absorb a high-energy photon, electrons are emitted with a well-defined energy and a highly symmetric angular distribution, ruled by energy quantization and parity conservation. These rules are based on approximations and symmetries which may break down when atoms are exposed to ultrashort and intense optical pulses. This raises the question of their universality for the simplest case of the photoelectric effect. Here we investigate photoionization of helium by a sequence of attosecond pulses in the presence of a weak infrared laser field. We continuously control the energy of the photoelectrons and introduce an asymmetry in their emission direction, at variance with the idealized rules mentioned above. This control, made possible by the extreme temporal confinement of the light-matter interaction, opens a road in attosecond science, namely, the manipulation of ultrafast processes with a tailored sequence of attosecond pulses.

SUBMITTER: Cheng YC 

PROVIDER: S-EPMC7245115 | biostudies-literature | 2020 May

REPOSITORIES: biostudies-literature

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Controlling photoionization using attosecond time-slit interferences.

Cheng Yu-Chen YC   Mikaelsson Sara S   Nandi Saikat S   Rämisch Lisa L   Guo Chen C   Carlström Stefanos S   Harth Anne A   Vogelsang Jan J   Miranda Miguel M   Arnold Cord L CL   L'Huillier Anne A   Gisselbrecht Mathieu M  

Proceedings of the National Academy of Sciences of the United States of America 20200430 20


When small quantum systems, atoms or molecules, absorb a high-energy photon, electrons are emitted with a well-defined energy and a highly symmetric angular distribution, ruled by energy quantization and parity conservation. These rules are based on approximations and symmetries which may break down when atoms are exposed to ultrashort and intense optical pulses. This raises the question of their universality for the simplest case of the photoelectric effect. Here we investigate photoionization  ...[more]

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