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Superradiance of a Stopped Polarization Pulse in a Thin Layer of a Five-Level Medium Excited by Subcycle Attosecond Pulses

Russian version

DOI: 10.21883/EOS.2023.01.55520.4375-22

Arkhipov R. M.^1,2, Pakhomov A. V.¹, Arkhipov M. V.¹, Rosanov N. N. ^1,2

¹St. Petersburg State University, St. Petersburg, Russia
²Ioffe Institute, St. Petersburg, Russia

Email: arkhipovrostislav@gmail.com, antpakhom@gmail.com, m.arkhipov@spbu.ru, nnrosanov@mail.ru

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Using the numerical solution of the system of equations for the amplitudes of bound states, together with the wave equation, we theoretically consider stopped polarization pulse superradiance upon excitation by a pair of half-period attosecond pulses in a thin layer of a five-level resonant medium, the parameters of which are the same as in a hydrogen atom. It is shown that in the case of a multilevel medium, at certain parameters of the exciting field, the superradiance pulse near the medium is also a single-cycle pulse, the shape of which is determined by the first time derivative of the stopped polarization pulse, as in the case when approximate low-level and classical models were used to describe the response of the medium. Keywords: superradiance, attosecond pulses, stopped polarization pulse, unipolar pulses, subcycle pulses.

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