Relativistic Tunneling Ionization in Crossed Petawatt Laser Beams
A scheme is proposed for a two-beam experiment on multi-petawatt laser systems aimed at searching for relativistic effects in electron tunneling from deep levels of multiply charged ions. It is shown that the most efficient relativistic ionization will occur in the field of a standing wave that aris...
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Published in | JETP letters Vol. 117; no. 4; pp. 281 - 285 |
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Format | Journal Article |
Language | English |
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01.02.2023
Springer Nature B.V |
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Abstract | A scheme is proposed for a two-beam experiment on multi-petawatt laser systems aimed at searching for relativistic effects in electron tunneling from deep levels of multiply charged ions. It is shown that the most efficient relativistic ionization will occur in the field of a standing wave that arises in the case of counter-propagating beams. Estimates are given showing that the observation of relativistic effects during the ionization of
-states of hydrogen-like ions with charge
is potentially possible at laser intensity in the beam overlap domain
10
25
W/cm
2
. |
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AbstractList | A scheme is proposed for a two-beam experiment on multi-petawatt laser systems aimed at searching for relativistic effects in electron tunneling from deep levels of multiply charged ions. It is shown that the most efficient relativistic ionization will occur in the field of a standing wave that arises in the case of counter-propagating beams. Estimates are given showing that the observation of relativistic effects during the ionization of -states of hydrogen-like ions with charge is potentially possible at laser intensity in the beam overlap domain 1025 W/cm2. A scheme is proposed for a two-beam experiment on multi-petawatt laser systems aimed at searching for relativistic effects in electron tunneling from deep levels of multiply charged ions. It is shown that the most efficient relativistic ionization will occur in the field of a standing wave that arises in the case of counter-propagating beams. Estimates are given showing that the observation of relativistic effects during the ionization of -states of hydrogen-like ions with charge is potentially possible at laser intensity in the beam overlap domain 10 25 W/cm 2 . A scheme is proposed for a two-beam experiment on multi-petawatt laser systems aimed at searching for relativistic effects in electron tunneling from deep levels of multiply charged ions. It is shown that the most efficient relativistic ionization will occur in the field of a standing wave that arises in the case of counter-propagating beams. Estimates are given showing that the observation of relativistic effects during the ionization of $$s$$ -states of hydrogen-like ions with charge $$Z = 80{-} 90$$ is potentially possible at laser intensity in the beam overlap domain $$ \simeq {\kern 1pt} $$ 10 25 W/cm 2 . |
Author | Popruzhenko, S. V. |
Author_xml | – sequence: 1 givenname: S. V. surname: Popruzhenko fullname: Popruzhenko, S. V. email: sergey.popruzhenko@gmail.com organization: Prokhorov General Physics Institute, Russian Academy of Sciences, National Research Nuclear University MEPhI (Moscow Engineering Physics Institute) |
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SubjectTerms | Atomic Biological and Medical Physics Biophysics Electron tunneling Ionization Ions Laser beams Molecular Optical and Plasma Physics Optics and Laser Physics Particle and Nuclear Physics Physics Physics and Astronomy Quantum Information Technology Relativistic effects Solid State Physics Spintronics Standing waves Wave propagation |
Title | Relativistic Tunneling Ionization in Crossed Petawatt Laser Beams |
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