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- 2022
Comparison of the effects of unipolar half-cycle and resonant multi-cycle electromagnetic pulses on quantum systems
It is shown that not only multicycle resonant pulses with zero electric area, but also nonresonant unipolar pulses can be used to efficiently excite quantum transitions in a medium. Arguments are presented in favor of the advantages of unipolar pulses for excitation of quantum systems in comparison with resonant radiation. A simple relationship has been found showing that in order to compare the effects of unipolar half-cycle and resonant multicycle pulses on atomic systems. It shows that it is necessary to compare the electric area of ??a unipolar pulse and the area of ??the envelope of a bipolar pulse, rather than their energies. Keywords: unipolar pulses, electric pulse area, pulse area, extremely short pulses, attosecond pulses.
- F. Krausz, M. Ivanov. Rev. Mod. Phys., 81, 163 (2009)
- F. Calegari, G. Sansone, S. Stagira, C. Vozzi, M. Nisoli. J. Physics B: Atomic, Molecular and Optical Physics, 49, 062001 (2016)
- J. Biegert, F. Calegari, N. Dudovich, F. Quere, M. Vrakking. J. Physics B: Atomic, Molecular and Optical Physics, 54, 070201 (2021)
- N.N. Rosanov, R.M. Arkhipov, M.V. Arkhipov. Phys. Usp., 61, 1227 (2018)
- R.M. Arkhipov, M.V. Arkhipov, N.N. Rosanov. Quantum Electronics, 50, 801 (2020)
- R.M. Arkhipov, JETP Lett., 113, 611 (2021)
- R.M. Arkhipov, M.V. Arkhipov, A. Pakhomov, I. Babushkin, N. Rosanov. Las. Phys. Lett., 19 (4),043001 (2022)
- M.T. Hassan, T.T. Luu, A. Moulet, O. Raskazovskaya, P. Zhokhov, M. Garg, N. Karpowicz, A.M. Zheltikov, V. Pervak, F. Krausz, E. Goulielmakis. Nature, 530, 66 (2016)
- H.-C. Wu, J. Meyer-ter-Vehn. Nat. Photonics, 6, 304 (2012)
- J. Xu, B. Shen, X. Zhang, Y. Shi, L. Ji, L. Zhang, T. Xu, W. Wang, X. Zhao, Z. Xu. Sci. Rep., 8, 2669 (2018)
- M.I. Bakunov, A.V. Maslov, M.V. Tsarev. Phys. Rev. A, 5, 063817 (2017)
- A.V. Bogatskaya, E.A.Volkova, A.M. Popov. Phys. Rev. E, 104, 025202 (2021)
- Y. Shou, R. Hu, Z. Gong, J. Yu, J. Chen, G. Mourou, X. Yan, W. Ma. New J. Phys., 23, 053003 (2021)
- S.V. Sazonov, N.V. Ustinov. JETP Lett. 114, 380 (2021)
- S.V. Sazonov. Laser Phys. Lett.,18 (10), 105401 (2021)
- R.M. Arkhipov, M.V. Arkhipov, I. Babushkin, A. Demircan, U. Morgner, N.N. Rosanov. Opt. Lett., 44, 1202 (2019)
- R. Arkhipov, A. Pakhomov, M. Arkhipov, A. Demircan, U. Morgner, N. Rosanov. Opt. Express, 28, 17020 (2020)
- I.A. Aleksandrov, D.A. Tumakov, A. Kudlis, V.M. Shabaev, N.N. Rosanov. Phys. Rev. A, 102, 0231020 (2020)
- N.N. Rosanov N.V. Vysotina. JETP, 130, 52 (2020)
- R.M. Arkhipov, M.V. Arkhipov, N.N. Rosanov. JETP. Lett., 111, 484 (2020)
- L. Allen, J.H. Eberly. Optical resonance and two-level atoms (Wiley, N.Y., 1975)
- P.G. Kryukov, V.S. Letokhov.Sov.Phys.Usp.,12,641 (1970)
- R.M. Arkhipov, M.V. Arkhipov, A.V. Pakhomov, N.N. Rosanov. JETP Lett., 114 (3), 129 (2021)
- N. Rosanov, D. Tumakov, M. Arkhipov, R. Arkhipov. Phys. Rev. A, 104 (6), 063101 (2021)
- R.M. Arkhipov, M.V. Arkhipov, I. Babushkin, A.V. Pakhomov, N.N. Rosanov. JETP Lett., 14 (5), 250 (2021)
- S.L. McCall, E.L. Hahn. Phys. Rev., 183 (2), 457 (1969)
- R. Arkhipov, A. Pakhomov, M. Arkhipov, I. Babushkin, A. Demircan, U. Morgner, N. Rosanov. Sci. Rep., 11, 1961 (2021)
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