[1] Quantum Squeezing, edited by P.D. Drummond and Z. Ficek
(Springer, Berlin, 2004)
[2] Z.Ficek and M.R.B. Wahiddin, Quantum Optics: Fundamentals and Applications
(IIU Press, Kuala Lumpur, Malaysia, 2004).
[3] Z.Ficek and S.Swain, Quantum Interference: Theory and Experiments
(Springer, New York, Berlin 2005).
[4] Z.Ficek and R.Tanas, Quantum-Limit Spectroscopy
(Springer, New York, Berlin), in preparation, to be completed by March 2006.
[1] Z.Ficek, R.Tanas and S.Kielich
Nonclassical states in the collective resonance fluorescence
Multiphoton Spectroscopy II, vol.57 (UAM Press, Poznan, 1987) p.29.
[2] Z.Ficek and R.Tanas
Quantum resonance fluorescence from mutually correlated atoms in Modern Nonlinear Optics, Part II, eds. M.W.Evans and S.Kielich (Wiley, New York, 1993) p.46.
[3] Z.Ficek and P.D.Drummond
Evidence for nonclassical excitation in spectroscopy with squeezed light
Physics Today, September 1997, p. 34.
[4] Z.Ficek
Atomic spectroscopy with a squeezed vacuum field
AOS News 11, 11 (1997).
[5] B.J.Dalton, Z.Ficek and S.Swain
Topical review on: Atoms in squeezed light fields
J. Modern Optics 46, 379 (1999).
[6] Z.Ficek and H.S.Freedhoff
Spectroscopy in polychromatic fields
Progress in Optics XL, edited by E.Wolf (Elsevier, Amsterdam, 2000), p.391.
[7] Z.Ficek
Quantum interference in atomic and molecular systems
In Modern Nonlinear Optics, Part 1, Second Edition, ed. M.W.Evans
(Wiley, New York, 2001), p. 79.
[8] Z.Ficek and R.Tanas
Correlated superposition states in two atom systems
In Modern Nonlinear Optics, part 1, Second Edition, ed. M.W.Evans
(Wiley, New York, 2001), p. 215.
[9] Z.Ficek and R.Tanas
Entangled states and collective nonclassical effects in two-atom systems
Phys. Rep. 372, 369 (2002)
[10] Z.Ficek and S.Swain
Quantum interference in optical fields and atomic radiation
J. Mod. Opt. 49, 3 (2002)
[1] Z.Ficek, R.Tanas and S.Kielich
Resonance fluorescence spectrum of two atoms coherently driven by a strong laser field
Optics Commun. 36, 121 (1981)
[2] Z.Ficek, R.Tanas and S.Kielich
Squeezed states in resonance fluorescence of two interacting atoms
Optics Commun. 46, 23 (1983)
[3] Z.Ficek, R.Tanas and S.Kielich
Effect of interatomic interactions on resonance fluorescence of two atoms coherently driven by a strong resonant laser field
Optica Acta 30, 713 (1983)
[4] Z.Ficek, R.Tanas and S.Kielich
Photon antibunching and squeezing in resonance fluorescence of two interacting atoms
Phys. Rev. A29, 2004 (1984)
[5] Z.Ficek, R.Tanas and S.Kielich
Squeezing in time dependent resonance fluorescence
Jour. Opt. Soc. Am. B1, 517 (1984)
[6] Z.Ficek, R.Tanas and S.Kielich
Analytical solution for light absorption spectra of two driven atoms
Jour. Phys. B: At. Mol. Phys. 17, 1491 (1984)
[7] Z.Ficek, R.Tanas and S.Kielich
Squeezed states in the transient regime of resonance fluorescence
Jour. Opt. Soc. Am. B1, 882 (1984)
[8] Z.Ficek, R.Tanas and S.Kielich
Squeezing conditions in transient regime of resonance fluorescence of a two-level atom
Acta Phys. Pol. A67, 583 (1985)
[9] Z.Ficek, R.Tanas and S.Kielich
Cooperative effects in the spontaneous emission from two nonidentical atoms
Optica Acta 33, 1149 (1986)
[10] P.Chmela, Z.Ficek and S.Kielich
Enhanced incoherent sum-frequency generation by group velocity difference
Optics Commun. 62, 403 (1987)
[11] Z.Ficek
Finite bandwidth excitation effect on the photon correlations in two-atom resonance fluorescence
Optics Commun. 63, 159 (1987)
[12] Z.Ficek, R.Tanas and S.Kielich
Squeezed states in N-atom time-dependent resonance fluorescence
Jour. Phys. (Paris) 48, 1697 (1987)
[13] Z.Ficek, R.Tanas and S.Kielich
Quantum beats and superradiant effects in the spontaneous emission from two nonidentical atoms
Physica 146A, 452 (1987)
[14] Z.Ficek, R.Tanas and S.Kielich
Quantum beats in intensity correlations of spontaneous emission from two nonidentical atoms
Jour. Mod. Opt. 35, 81 (1988)
[15] Z.Ficek and R.Tanas
Anomalous coherence functions in collective resonance fluorescence
Z. Phys. D9, 27 (1988)
[16] Z.Ficek, R.Tanas and S.Kielich
Quantum beats in photon correlations of spontaneous emission from two nonidentical atoms
Kwant. Electr. 15, 1208 (1988): [ Sov. Quant. Electr. 18, 766 (1988) ]
[17] Z.Ficek, R.Tanas and S.Kielich
Photon-counting statistics of squeezed states in collective resonance fluorescence
Jour. Phys. D: Applied Physics 21, S131 (1988)
[18] Z.Ficek, R.Tanas and S.Kielich
Amplitude-squared squeezing in two atom resonance fluorescence
Optics Commun. 69, 20 (1988)
[19] P.Chmela, Z.Ficek and S.Kielich
Classical theory of non-degenerate sum-frequency generation by incoherent nonlinear optical mixing of coherent and chaotic radiations. I. General solution
Czech. Jour. of Physics B39, 509 (1989)
[20] P.Chmela, Z.Ficek and S.Kielich
Classical theory of non-degenerate sum-frequency generation by incoherent nonlinear optical mixing of coherent and chaotic radiations. II. Efficiency and spectral distribution
Czech. Jour. of Physics B39, 643 (1989)
[21] Z.Ficek, P.Chmela and S.Kielich
Effect of the group velocity difference on the sum-frequency generation
Optical and Quantum Electr. 22, 123 (1990)
[22] Z.Ficek and B.C.Sanders
Quantum beats in two-atom resonance fluorescence
Phys. Rev. A41, 359 (1990)
[23] Z.Ficek
Spontaneous emission from two atoms interacting with a broadband squeezed vacuum
Phys. Rev. A42, 611 (1990)
[24] Z.Ficek and P.D.Drummond
Comment on 'Phase-sensitive population decay: Two-atom Dicke model in a broadband squeezed vacuum'
Phys. Rev. A42, 1826 (1990)
[25] Z.Ficek and B.C.Sanders
Two-atom resonance fluorescence spectrum in a squeezed vacuum including the dipole-dipole interaction
Quantum Optics 2, 269 (1990)
[26] Z.Ficek
Effect of a broadband squeezed vacuum on two-atom spontaneous emission
Optics Commun. 82, 130 (1991)
[27] Z.Ficek and P.D.Drummond
Three-level atom in a broadband squeezed vacuum field: I. General theory
Phys. Rev. A43, 6247 (1991)
[28] Z.Ficek and P.D.Drummond
Three-level atom in a broadband squeezed vacuum field: II. Applications
Phys. Rev. A43, 6258 (1991)
[29] Z.Ficek
Pairwise atomic states: Two-atom system in a three-dimensional squeezed vacuum field
Phys. Rev. A44, 7759 (1991)
[30] Z.Ficek
Scattered and absorption spectra of a system of atoms under squeezed vacuum excitation
Optics Commun. 88, 494 (1992)
[31] Z.Ficek and B.J.Dalton
Squeezing-induced transparency in a two-level atom
Optics Commun. 102, 231 (1993)
[32] Z.Ficek and H.S.Freedhoff
Resonance fluorescence and absorption spectra of a two-level atom driven by a strong bichromatic field
Phys. Rev. A48, 3092 (1993)
[33] Z.Ficek and P.D.Drummond
Two-photon population inversion by squeezed light in a Fabry-Perot microcavity
Europhys. Lett. 24, 455 (1993)
[34] Z.Ficek
Generalized Bloch-Siegert shift in a squeezed vacuum
Jour. Mod. Opt. 40, 2333 (1993)
[35] Z.Ficek
Effect of the dipole-dipole interaction on the pure two-atom squeezed state
Jour. Mod. Opt. 40, 2339 (1993)
[36] Z.Ficek and B.C.Sanders
Resonance fluorescence of a two-level atom in an off-resonance squeezed vacuum
Jour. Phys. B: At. Mol. Opt. Phys. 27, 809 (1994)
[37] Z.Ficek and R.Tanas
Squeezing in two-atom resonance fluorescence induced by two-photon coherences
Quantum Opt. 6, 95 (1994)
[38] Z.Ficek, B.J.Dalton and P.L.Knight
Steady-state squeezing in a driven three-level lambda system
Phys. Rev. A50, 2594 (1994)
[39] B.J.Dalton, Z.Ficek and P.L.Knight
Optimum field squeezing from atomic sources: Three-level atoms
Phys. Rev. A50, 2646 (1994)
[40] Z.Ficek, W.S.Smyth and S.Swain
Gain without population inversion in a two-level atom damped by a broadband squeezed vacuum
Optics Commun. 110, 555 (1994)
[41] Z.Ficek and M.R.B.Wahiddin
Population inversion and lineshapes in a driven two-atom system in a squeezed vacuum
Quantum Semiclass. Opt. 7, 41 (1995)
[42] M.R.Ferguson, Z.Ficek and B.J.Dalton
Effect of a squeezed vacuum on coherent population trapping in a three-level lambda system
Jour. Mod. Opt. 42, 679 (1995)
[43] M.R.B.Wahiddin, Z.Ficek and S.K.Ng
Dynamics of the generation of the pure two-atom squeezed state
Jour. Mod. Opt. 42, 739 (1995)
[44] Z.Ficek, B.J.Dalton and P.L.Knight
Fluorescence intensity and squeezing in a driven three-level system: Ladder case
Phys. Rev. A51, 4062 (1995)
[45] T.G.Rudolph, Z.Ficek and B.J.Dalton
Two-atom resonance fluorescence in running- and standing laser fields
Phys. Rev. A52, 636 (1995)
[46] Z.Ficek, W.S.Smyth and S.Swain
Asymmetric probe absorption spectrum and amplification without inversion in a squeezed vacuum
Phys. Rev. A52, 4126 (1995)
[47] P.Zhou, Z.Ficek and S.Swain
Hole burning and dispersive profiles at line centre of the probe absorption spectrum of a two-level atom in a squeezed vacuum
J. Opt. Soc. Am. B13, 768 (1996)
[48] M.R.Ferguson, Z.Ficek and B.J.Dalton
Generation of squeezed light via spontaneous emission from a three-level atom in the cascade configuration
Optics Commun. 127, 48 (1996)
[49] Z.Ficek and H.S.Freedhoff
Fluorescence and absorption by a two-level atom in a bichromatic field with one strong and one weak component
Phys. Rev. A53, 4275 (1996)
[50] M.Bosticky, Z.Ficek and B.J.Dalton
Probe absorption spectra for driven atomic systems in a narrow bandwidth squeezed vacuum
Phys. Rev. A53, 4439 (1996)
[51] M.R.Ferguson, Z.Ficek and B.J.Dalton
Resonance fluorescence spectra of three-level atoms in a squeezed vacuum
Phys. Rev. A54, 2379 (1996)
[52] Z.Ficek and M.R.B.Wahiddin
Pure two-atom squeezed state in spontaneous emission from two non-identical atoms
Optics Commun. 134, 387 (1997)
[53] Z.Ficek and S.Swain
Squeezing in anomalous resonance fluorescence
J. Opt. Soc. Am. B14, 258 (1997)
[54] P.Zhou, S.Swain and Z.Ficek
Resonance fluorescence spectra of a two-level atom driven by a bichromatic field in a squeezed vacuum
Phys. Rev. A55, 2340 (1997)
[55] H.S.Freedhoff and Z.Ficek
Resonance fluorescence and Autler-Townes spectra of a two-level atom driven by two fields of equal frequencies
Phys. Rev. A55, 1234 (1997)
[56] Z.Ficek, B.J.Dalton and M.R.B.Wahiddin
Spectral linewidth narrowing by a narrow bandwidth squeezed vacuum in a cavity
Jour. Mod. Opt. 44, 1005 (1997)
[57] C.Wei, S.A.Holmstrom, M.J.Sellars, N.B.Manson and Z.Ficek
Effect of the Bloch-Siegert shift in a strongly driven transition: asymmetric Autler-Townes profile
J.Phys.B: At. Mol. Opt. Phys. 30, 2735 (1997)
[58] M.R.Ferguson, Z.Ficek and B.J.Dalton
Phase-dependent fluorescence linewidth narrowing in a three-level atom damped by a finite-bandwidth squeezed vacuum
Phys. Rev. A56, 4125 (1997)
[59] C.C.Yu, J.R.Bochinski, T.M.V.Kordich, T.W.Mossberg and Z.Ficek
Driving the driven atom: Spectral signatures
Phys. Rev. A56, R4381 (1997)
[60] M.Saad, K.T.Lim, M.R.B.Wahiddin and Z.Ficek
Quantum beats in spontaneous emission from two atoms in a detuned squeezed vacuum
J. Opt. Soc. Am. B14, 2767 (1997)
[61] Z.Ficek and P.D.Drummond
Evidence for nonclassical excitation in spectroscopy with squeezed light
Physics Today 50, 34 (1997)
[62] W.S.Smyth, S.Swain, Z.Ficek and M.Scott
Anomalous resonance fluorescence and dressed state inversion by squeezed light in a Fabry-Perot microcavity
Phys. Rev. A57, 585 (1998)
[63] S.F.Chien, M.R.B.Wahiddin and Z.Ficek
Quantum trajectory simulations of the fluorescence intensity from a two-level atom driven by a multichromatic field
Phys. Rev. A57, 1295 (1998)
[64] U.Akram, M.R.B.Wahiddin and Z.Ficek
Index of refraction of a two-level atom in a squeezed vacuum field
Phys. Lett. A238, 117 (1998)
[65] T.G.Rudolph, Z.Ficek and H.S.Freedhoff
The multiphoton AC Stark effect
Optics Commun. 147, 78 (1998)
[66] P.Zhou, Z.Ficek and S.Swain
Anomalous fluorescence spectra in an extremely weak, broadband squeezed vacuum under monochromatic and bichromatic excitation
Optics Commun. 148, 159 (1998)
[67] M.R.B.Wahiddin, Z.Ficek, U.Akram, K.T.Lim and M.R.Muhamad
Squeezing-induced complete transparency in two-level systems
Phys. Rev. A57, 2072 (1998)
[68] Z.Ficek, J.Seke, R.Kralicek and G.Adam
Stationary lineshape of a two-level atom in a narrow-bandwidth squeezed vacuum
Optics Commun. 147, 289 (1998)
[69] R.Tanas, Z.Ficek, A.Messikh and T. El-Shahat
Two-level atom in a squeezed vacuum with finite bandwidth
J.Mod.Opt. 45, 1859 (1998)
[70] M.Bosticky, Z.Ficek and B.J.Dalton
Analytical solution for the Mollow and Autler-Townes probe absorption spectra of a three-level atom in a squeezed vacuum
Phys. Rev. A57, 3869 (1998)
[71] T.G. Rudolph and Z.Ficek
Interference pattern with dark center from two atoms driven by a coherent laser field
Phys. Rev. A58, 748 (1998)
[72] T.Rudolph, H.S.Freedhoff and Z.Ficek
Shift of the subharmonic resonances and suppression of fluorescence in a two-level atom driven by a bichromatic field
J. Opt.. Soc. Am. B15, 2325 (1998)
[73] Z.Ficek and R.Tanas
Interference pattern with a dark center in resonance fluorescence from two atoms driven by a squeezed vacuum field
Optics Commun. 153, 245 (1998)
[74] T.G.Rudolph, H.S.Freedhoff and Z.Ficek
The multiphoton AC Stark effect in a bichromatically driven two-level atom
Phys. Rev. A58, 1296 (1998)
[75] Z.Ficek, J.Seke and R.Kralicek
Resonance fluorescence spectrum in a weak squeezed field with an arbitrary bandwidth
Phys. Rev. A58, 1597 (1998)
[76] Z.Ficek and J.Seke
Spectral linewidth narrowing by a weak squeezed field of an arbitrary bandwidth
Physica A258, 477 (1998)
[77] M.Bosticky, B.J.Dalton and Z.Ficek
Absorption spectrum of a strongly driven atom in a detuned squeezed vacuum
J. Opt. B: Quantum Semiclass. Opt. 1, 433 (1999)
[78] B.J.Dalton, Z.Ficek and S.Swain
Topical review on: Atoms in squeezed light fields
J. Modern Optics 46, 379 (1999)
[79] Z.Ficek, H.S. Freedhoff and T.G. Rudolph
Dressing dressed states
Optics and Spectroscopy 87, 737 (1999)
[80] Z.Ficek and T.Rudolph
Quantum interference in a driven two-level atom
Phys. Rev. A60, R4245 (1999)
[81] Z.Ficek, J.Seke, A. Soldatov and G. Adam
Phase control of subharmonic resonances
Optics Commun. 182, 143 (2000)
[82] A.Messikh, R. Tanas and Z.Ficek
Response of a two-level atom to a narrow bandwidth squeezed vacuum excitation
Phys. Rev. A61, 033811 (2000)
[83] S.Swain, P.Zhou and Z.Ficek
Intensity-intensity correlations and quantum interference in a driven three-level atom
Phys. Rev. A61, 043410 (2000)
[84] J.Wang, H.M.Wiseman and Z.Ficek
Quantum interference in the fluorescence of a molecular system
Phys. Rev. A62, 013818 (2000)
[85] U.Akram, Z.Ficekand S.Swain
Decoherence and coherent population transfer between two coupled systems
Phys. Rev. A62, 013413 (2000)
[86] Z.Ficek and H.S.Freedhoff
Spectroscopy in polychromatic fields
Progress in Optics 40, 391 (2000)
[87] Z.Ficek, J.Seke, A.V. Soldatov and G. Adam
Saturation of a two-level atom in polychromatic fields
J. Opt. B: Quantum Semiclass. Opt. 2, 780 (2000)
[88] J.A. Andersen, M.E.J. Friese, A.G. Truscott, Z.Ficek, P.D. Drummond, N.R. Heckenberg and H. Rubinsztein-Dunlop
Light guiding light: Non-linear refraction in rubidium vapor
Phys. Rev. A63, 023820 (2001)
[89] Z.Ficek, S.Swain and U. Akram
Amplification on dark transitions in a driven three-level atom
J. Phys. B: At. Mol. Opt. Phys. 34, 671 (2001)
[90] U.Akram, Z.Ficek and S.Swain
Effect of quantum interference on a three-level atom driven by two laser fields
J. Mod. Opt. 48, 1059 (2001)
[91] Z.Ficek and S.Swain
Cavity QED analog of the harmonic oscillator probability distribution function and quantum collapses
Phys. Rev. A63, 063815 (2001)
[92] Z.Ficek, J.Seke, A.V. Soldatov and G. Adam
Fluorescence spectrum of a two-level atom driven by a multiple modulated field
Phys. Rev. A64, 013813 (2001)
[93] Z.Ficek
Quantum interference in atomic and molecular systems
Adv. Chem. Phys. 119, 79 (2001)
[94] Z.Ficek and R. Tanas
Correlated superposition states in two atom systems
Adv. Chem. Phys. 119, 215 (2001)
[95] Z.Ficek and S.Swain
Quantum interference in optical fields and atomic radiation
J. Mod. Opt. 49, 3 (2002)
[96] Z.Ficek, J.Seke, A.V. Soldatov, G. Adam and N.N. Bogolubov, Jr.
Absorption and dispersion by a multiple driven two-level atom
Eur. Phys. J. D 19, 411 (2002)
[97] Z.Ficek and R.Tanas
Entangled states and collective nonclassical effects in two-atom systems
Phys. Rep. 372, 369 (2002)
[98] S.Swain and Z.Ficek
The damped and coherently driven Jaynes-Cummings model
J. Opt. B: Quantum Semiclass. Opt. 4, S328 (2002)
[99] R.Tanas and Z.Ficek
Entangled states in two-atom systems
Fortschr. Phys. 51, 229 (2003)
[100] Z.Ficek and R.Tanas
Entanglement induced by spontaneous emission in spatially extended two-atom systems
J. Mod. Opt. 50, 2765 (2003)
[101] A.Messikh, Z.Ficek and M.R.B. Wahiddin
Entanglement and spin squeezing in the two-atom Dicke model
J. Opt. B: Quantum Semiclass. Opt. 5, L1 (2003)
[102] U. Akram and Z.Ficek
Quantum interference effects in a cavity QED system
J. Opt. B: Quantum Semiclass. Opt. 5, 330 (2003)
[103] Z.Ficek, J.Seke, A.V. Soldatov, G. Adam and N.N. Bogolubov, Jr.
Multilevel coherence effects in a two-level atom driven by a trichromatic field
Optics Commun. 217, 299 (2003)
[104] A.Messikh, Z.Ficek and M.R.B. Wahiddin
Spin squeezing as a measure of entanglement in a two-qubit system
Phys. Rev. A68, 064301 (2003)
[105] R. Tanas and Z.Ficek
Entangling two atoms via spontaneous emission
J. Opt. B: Quantum Semiclass. Opt. 6, S90 (2004)
[106] A.Messikh, M.R.B. Wahiddin, C.H. Pah and Z.Ficek
Effect of finite bandwidth squeezed light on entanglement creation in the Dicke model
J. Opt. B: Quantum Semiclass. Opt. 6, 289 (2004)
[107] Z.Ficek and S.Swain
Simulating quantum interference in a three-level system with perpendicular transition dipole moments
Phys. Rev. A69, 023401 (2004)
[108] R. Tanas and Z.Ficek
Stationary two-atom entanglemnet induced by nonclassical two-photon correlations
J. Opt. B: Quantum Semiclass. Opt. 6, S610 (2004)