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We discuss a Λ-like model of atomic levels involving two autoionizing (AI) states of the same energy. The system is irradiated by two external electromagnetic fields (strong – driving and weak – probing). For such a system containing degenerate AI levels we derive the analytical formula describing the medium susceptibility. We show that the presence of the second AI level leads to the additional electromagnetically induced transparency (EIT) window appearance. We show that the characteristics of this window can be manipulated by changes of the parameters describing the interactions of AI levels with other ones. This is a new mechanism which leads to additional transparency windows in EIT model, that differs from the mechanism where a bigger number of Zeeman sublevels is taken into account.
Czasopismo
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Tom
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471--484
Opis fizyczny
Bibliogr. 29 poz., wykr.
Twórcy
autor
- Quantum Optics and Engineering Division, Institute of Physics, University of Zielona Góra, ul. prof. A. Szafrana 4a, 65-516 Zielona Góra, Poland
autor
- Quantum Optics and Engineering Division, Institute of Physics, University of Zielona Góra, ul. prof. A. Szafrana 4a, 65-516 Zielona Góra, Poland
autor
- Institute of Physics of AS CR, Joint Laboratory of Optics, 17. listopadu 50a, 772 07 Olomouc, Czech Republic
autor
- Quantum Optics and Engineering Division, Institute of Physics, University of Zielona Góra, ul. prof. A. Szafrana 4a, 65-516 Zielona Góra, Poland
Bibliografia
- [1] IMAMOGLU A., HARRIS S.E., Lasers without inversion: interference of dressed lifetime-broadened states, Optics Letters 14(24), 1989, pp. 1344–1346.
- [2] HARRIS S.E., FIELD J.E., IMAMOGLU A., Nonlinear optical processes using electromagnetically induced transparency, Physical Review Letters 64(10), 1990, pp. 1107–1110.
- [3] BOLLER K.-J., IMAMOGLU A., HARRIS S.E., Observation of electromagnetically induced transparency, Physical Review Letters 66(20), 1991, pp. 2593–2596.
- [4] FLEISCHHAUER M., IMAMOGLU A., MARANGOS J.P., Electromagnetically induced transparency: optics in coherent media, Reviews of Modern Physics 77(2), 2005, pp. 633–673.
- [5] KOWALSKI K., CAO LONG V., DINH XUAN K., GŁÓDŹ M., NGUYEN HUY B., SZONERT J., Electromagnetically induced transparency, Computational Methods in Science and Technology, Special Issue (2), 2010, pp. 131–145.
- [6] WANG J., KONG L.B., TU X.H., JIANG K.J., LI K., XIONG H.W., YIFU ZHU, ZHAN M.S., Electromagnetically induced transparency in multi-level cascade scheme of cold rubidium atoms, Physics Letters A 328(6), 2004, pp. 437–443.
- [7] KOWALSKI K., CAO LONG V., NGUYEN VIET H., GATEVA S., GŁÓDŹ M., SZONERT J., Simultaneous coupling of three hfs components in a cascade scheme of EIT in cold 85Rb atoms, Journal of Non-Crystalline Solids 355(24–27), 2009, pp. 1295–1301.
- [8] BO WANG, YANXU HAN, JINTAO XIAO, XUDONG YANG, CHANGDE XIE, HAI WANG, MIN XIAO, Multi-dark-state resonances in cold multi-Zeeman-sublevel atoms, Optics Letters 31(24), 2006, pp. 3647–3649.
- [9] PAUL-KWIEK E., GŁÓDŹ M., KOWALSKI K., SZONERT J., GATEVA S., VASEVA K., Multiple peaks due to EIT and Autler-Townes effect in lambda-probing of the strongly driven 5P3/2 manifold of cold 85Rb atoms in MOT, Proceedings of SPIE 7747, 2011, article 77470I.
- [10] VAN ENK S.J., JIAN ZHANG, LAMBROPOULOS P., Effect of the continuum on electromagnetically induced transparency with matched pulses, Physical Review A 50(3), 1994, pp. 2777–2780; VAN ENK S.J., JIAN ZHANG, LAMBROPOULOS P., Pump-induced transparency and enhanced third-harmonic generation near an autoionizing state, Physical Review A 50(4), 1994, p. 3362–3365.
- [11] PASPALAKIS E., KYLSTRA N.J., KNIGHT P.L., Propagation dynamics in an autoionization medium, Physical Review A 60(1), 1999, pp. 642–647.
- [12] RACZYŃSKI A., RZEPECKA M., ZAREMBA J., ZIELIŃSKA-KANIASTY S., Electromagnetically induced transparency and light slowdown for Λ-like systems with a structured continuum, Optics Communications 266(2), 2006, pp. 552–557.
- [13] DOAN QUOC K., CAO LONG V., LEOŃSKI W., Electromagnetically induced transparency for Λ-like systems with a structured continuum and broad-band coupling laser, Physica Scripta T147, 2012, article 014008.
- [14] FANO U., Effects of configuration interaction on intensities and phase shifts, Physical Review 124(6), 1961, pp. 1866–1878.
- [15] RZĄŻEWSKI K., EBERLY J.H., Confluence of bound-free coherences in laser-induced autoionization, Physical Review Letters 47(6), 1981, pp. 408–412.
- [16] JOURNEL L., ROUVELLOU B., CUBAYNES D., BIZAY J.M., WUILLEUMIER F.J., RICHTER M., SLADECZEK P., SELBMANN K.-H., ZIMMERMANN P., BERGERON H., First observation of a Fano profile following one step autoionization into a double photoionization continuum, Journal de Physique IV 3(C6), 1993, pp. 217–226.
- [17] DURAND PH., PAIDAROVÁ I., GADÉA F.X., Theory of Fano profiles, Journal of Physics B: Atomic, Molecular and Optical Physics 34(10), 2001, pp. 1953–1966.
- [18] PEŘINA J. JR., LUKŠ A., LEOŃSKI W., PEŘINOVÁ V., Photoionization electron spectra in a system interacting with a neighboring atom, Physical Review A 83(5), 2011, article 053416; PEŘINA J. JR., LUKŠ A., LEOŃSKI W., PEŘINOVÁ V., Photoelectron spectra in an autoionization system interacting with a neighboring atom, Physical Review A 83(5), 2011, article 053430.
- [19] PEŘINA J. JR., LUKŠ A., PEŘINOVÁ V., LEOŃSKI W., Fano zeros in photoelectron spectra of an autoionization system interacting with a neighboring atom, Optics Express 19(18), 2011, pp. 17133–17142; PEŘINA J. JR., LUKŠ A., PEŘINOVÁ V., LEOŃSKI W., Photoelectron ionization spectra in a system interacting with a neighbor atom, Journal of Russian Laser Research 32(5), 2011, pp. 454–466.
- [20] LUKŠ A., PEŘINA J. JR., LEOŃSKI W., PEŘINOVÁ V., Entanglement between an autoionizing system and a neighboring atom, Physical Review A 85(1), 2012, article 012321.
- [21] TROCHA P., BARNAŚ J., Quantum interference and Coulomb correlation effects in spin-polarized transport through two coupled quantum dots, Physical Review B 76(16), 2007, article 165432.
- [22] RIDOLFO A., DI STEFANO O., FINA N., SAIJA R., SAVASTA S., Quantum plasmonics with quantum dot-metal nanoparticle molecules: influence of the Fano effect on photon statistics, Physical
- [23] LUK’YANCHUK B., ZHELUDEV N.I., MAIER S.A., HALAS N.J., NORDLANDER P., GIESSEN H., CHONG TOW CHONG, The Fano resonance in plasmonic nanostructures and metamaterials, Nature Materials 9(9), 2010, pp. 707–715.
- [24] MIROSHNICHENKO A.E., FLACH S., KIVSHAR Y.S., Fano resonances in nanoscale structures, Reviews of Modern Physics 82(3), 2010, pp. 2257–2298.
- [25] LEOŃSKI W., TANAŚ R., KIELICH S., Laser-induced autoionization from a double Fano system, Journal of the Optical Society of America B 4(1), 1987, pp. 72–77.
- [26] LEOŃSKI W., TANAŚ R., DC-field effects on the photoelectron spectrum from a system with two autoionising levels, Journal of Physics B: Atomic, Molecular and Optical Physics 21(16), 1988, pp. 2835–2844.
- [27] LEOŃSKI W., BUŽEK V., Quantum laser field effect on the photoelectron spectrum for auto-ionizing systems, Journal of Modern Optics 37(12), 1990, pp. 1923–1934.
- [28] LEOŃSKI W., Squeezed-state effect on bound-continuum transitions, Journal of the Optical Societyof America B 10(2), 1993, pp. 244–252.
- [29] ALLEN L., EBERLY J.H., Optical resonance and Two-Level Atoms, Wiley, 1975.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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