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Journal of Modern Optics Volume 46, 1999 - Issue 3
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Topical review

Atoms in squeezed light fields

B. J. Dalton Department of Physics and Centre for Laser Science, The University of Queensland, St. Lucia, Queensland, 4072, Australia
,
Z. Ficek Department of Physics and Centre for Laser Science, The University of Queensland, St. Lucia, Queensland, 4072, Australia
&
S. Swain Department of Applied Mathematical and Theoretical Physics, Queens University of Belfast, Belfast, BT7 1NN, UK
Pages 379-474 | Received 13 Aug 1998, Published online: 03 Jul 2009

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A.-S.F. Obada, H.A. Hessian & A.-B.A. Mohamed. (2009) Effects of cavity damping on the entanglement for a three-level atomic system. Journal of Modern Optics 56:7, pages 881-885.
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Sintayehu Tesfa. (2008) Effect of decoherence on the radiative and squeezing properties in a coherently driven trapped two-level atom. Journal of Modern Optics 55:10, pages 1587-1602.
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B.J. Dalton. (2003) Scaling of decoherence effects in quantum computers. Journal of Modern Optics 50:6-7, pages 951-966.
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W.S. Smyth & S. Swain. (1999) Fluorescence quenching and spectral narrowing from a two-level atom driven by a weak, narrowband, light field. Journal of Modern Optics 46:8, pages 1233-1250.
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Articles from other publishers (53)

Abdul Basit, Hamad Ali, Peng-Bo Li & Gao Xianlong. (2023) Effects of reservoir squeezing on trace-distance correlations and emergence of the pointer basis. Physical Review A 107:4.
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L. C. G. Govia, A. Lingenfelter & A. A. Clerk. (2022) Stabilizing two-qubit entanglement by mimicking a squeezed environment. Physical Review Research 4:2.
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Tamirat Abebe, Demissie Jobir, Chimdessa Gashu & Ebisa Mosisa. (2021) Interaction of Two-Level Atom with Squeezed Vacuum Reservoir. Advances in Mathematical Physics 2021, pages 1-7.
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L. Villanueva-Vergara, F. Soto-Eguibar & H. M. Moya-Cessa. (2020) Effect of the oscillations in the photon distribution of a squeezed field on the fluorescence spectrum of the Jaynes–Cummings model. Modern Physics Letters B 34:Supp01, pages 2050426.
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Smail Bougouffa & Mohannad Al-Hmoud. (2020) Bipartite Entanglement in Optomechanical Cavities Driven by Squeezed Light. International Journal of Theoretical Physics 59:6, pages 1699-1716.
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K. Morawetz. (2019) Bose condensation of squeezed light. Physical Review B 99:20.
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Alexander Holm Kiilerich & Klaus Mølmer. (2017) Relaxation of an ensemble of two-level emitters in a squeezed bath. Physical Review A 96:4.
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Sina Zeytinoğlu, Ataç İmamoğlu & Sebastian Huber. (2017) Engineering Matter Interactions Using Squeezed Vacuum. Physical Review X 7:2.
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Zbigniew Ficek & Ryszard TanaśZbigniew Ficek & Ryszard Tanaś. 2017. Quantum-Limit Spectroscopy. Quantum-Limit Spectroscopy 185 221 .
Bo Gao, Gao-xiang Li & Zbigniew Ficek. (2016) Engineering a squeezed phonon reservoir with a bichromatic driving of a quantum dot. Physical Review A 94:3.
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Howard J. Carmichael. (2016) Squeezed Light Reengineers Resonance Fluorescence. Physics 9.
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D. M. Toyli, A. W. Eddins, S. Boutin, S. Puri, D. Hover, V. Bolkhovsky, W. D. Oliver, A. Blais & I. Siddiqi. (2016) Resonance Fluorescence from an Artificial Atom in Squeezed Vacuum. Physical Review X 6:3.
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H. Lotfipour, S. Shahidani, R. Roknizadeh & M. H. Naderi. (2016) Response of a mechanical oscillator in an optomechanical cavity driven by a finite-bandwidth squeezed vacuum excitation. Physical Review A 93:5.
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Matthew Elliott & Eran Ginossar. (2015) Enhancement and state tomography of a squeezed vacuum with circuit quantum electrodynamics. Physical Review A 92:1.
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A V Dodonov. (2013) Continuous intracavity monitoring of the dynamical Casimir effect. Physica Scripta 87:3, pages 038103.
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Yong He & Ka-Di Zhu. (2012) Strong coupling among semiconductor quantum dots induced by a metal nanoparticle. Nanoscale Research Letters 7:1.
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Lech Jakóbczyk, Robert Olkiewicz & Mariusz Żaba. (2011) Asymptotic entanglement of two atoms in a squeezed light field. Physical Review A 83:6.
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H. A. BatarfiR. A. Al-HarbiR. SaundersS. S. Hassan. (2010) Iterative solution of non-autonomous Bloch equations: fluorescence spectrum with detuned squeezed vacuum field. Canadian Journal of Physics 88:7, pages 529-543.
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Levente Horvath & Zbigniew Ficek. (2010) Initial-phase spectroscopy as a control of entangled systems. Journal of Physics B: Atomic, Molecular and Optical Physics 43:12, pages 125506.
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Gao-xiang Li & Zbigniew Ficek. (2010) Creation of pure multi-mode entangled states in a ring cavity. Optics Communications 283:5, pages 814-821.
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Zbigniew Ficek. (2009) Quantum entanglement and disentanglement of multi-atom systems. Frontiers of Physics in China 5:1, pages 26-81.
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Ephraim Shahmoon, Shimon Levit & Roee Ozeri. (2009) Qubit coherent control and entanglement with squeezed light fields. Physical Review A 80:3.
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A. -S. F. Obada, A. A. Eied & G. M. Abd Al-Kader. (2009) A treatment of the emission and absorption spectra of a general formalism V-type three-level atom driven by a single-mode field with nonlinearities. Laser Physics 19:7, pages 1434-1445.
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Jun Jing, Zhi-Guo Lü & Zbigniew Ficek. (2009) Breakdown of the rotating-wave approximation in the description of entanglement of spin-anticorrelated states. Physical Review A 79:4.
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Gao-xiang Li, Sha-sha Ke & Zbigniew Ficek. (2009) Generation of pure continuous-variable entangled cluster states of four separate atomic ensembles in a ring cavity. Physical Review A 79:3.
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Eran Ginossar, Yehoshua Levinson & Shimon Levit. (2008) Coherent optical control of correlation waves of spins in semiconductors. Physical Review B 78:20.
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Peng Xue & Barry C Sanders. (2008) Quantum quincunx for walk on circles in phase space with indirect coin flip. New Journal of Physics 10:5, pages 053025.
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K.I. Osman, S.S. Hassan & Amitabh Joshi. (2007) Quantum interference effect on absorption–dispersion spectra in Λ-type three-level EIT medium interacting with a squeezed bath. Optics Communications 278:1, pages 114-123.
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S.S. Hassan, A. Joshi, O.M. Frege & W. Emam. (2007) Damping of a harmonic oscillator in a squeezed vacuum without rotating-wave approximation. Annals of Physics 322:9, pages 2007-2020.
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G.M. Saxena & Ashish Agarwal. (2006) Laser cooling force in noisy quadrature of squeezed light. Optics Communications 267:1, pages 124-127.
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K. I. Osman & S. S. Hassan. (2006) Phase switching and quantum interference in a 3-level Λ-shape bistable model. The European Physical Journal D 38:3, pages 537-544.
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Amitabh Joshi, Shoukry S. Hassan & Min Xiao. (2005) Controlling subluminal to superluminal behavior of group velocity with squeezed reservoir. Physical Review A 72:5.
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V. I. Yukalov & E. P. Yukalova. (2004) Atomic squeezing under collective emission. Physical Review A 70:5.
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M.A. Antón, F. Carreño & Oscar G. Calderón. (2004) Squeezing spectra in a V-type three-level atom interacting with a broadband squeezed field. Optics Communications 234:1-6, pages 281-294.
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. 2004. A Guide to Experiments in Quantum Optics. A Guide to Experiments in Quantum Optics 310 342 .
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S. Swain. 2004. Quantum Squeezing. Quantum Squeezing 263 309 .
F. Carreño, M.A. Antón & Oscar G. Calderón. (2003) Quantum interference effects in resonance fluorescence and absorption spectra of a V-type three-level atom damped by a broadband squeezed vacuum. Optics Communications 221:4-6, pages 365-385.
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M.A. Antón, Oscar G. Calderón & F. Carreño. (2003) Optical bistability in V-type atoms driven by a coherent field in a broadband squeezed vacuum. Physics Letters A 311:4-5, pages 297-312.
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Stephen Clark & Scott Parkins. (2003) Coupling of effective one-dimensional two-level atoms to squeezed light. Journal of Optics B: Quantum and Semiclassical Optics 5:2, pages 145-154.
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A Messikh, Z Ficek & M R B Wahiddin. (2003) Entanglement and spin squeezing in the two-atom Dicke model. Journal of Optics B: Quantum and Semiclassical Optics 5:2, pages L1-L4.
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David Bullock, Jörg Evers & Christoph H. Keitel. (2003) Modifying spontaneous emission via interferences from incoherent pump fields. Physics Letters A 307:1, pages 8-12.
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Z. Ficek & R. Tanaś. (2002) Entangled states and collective nonclassical effects in two-atom systems. Physics Reports 372:5, pages 369-443.
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Daniel Erenso & Reeta Vyas. (2002) Two-level atom coupled to a squeezed vacuum inside a coherently driven cavity. Physical Review A 65:6.
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Gaoxiang Li, Hong Guo & Guangming Huang. (2002) Autler–Townes spectrum of a three-level atom driven by coherent and stochastic fields. Physics Letters A 293:3-4, pages 116-122.
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B. J. Dalton, Stephen M. Barnett & B. M. Garraway. (2001) Theory of pseudomodes in quantum optical processes. Physical Review A 64:5.
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L. K. Thomsen & H. M. Wiseman. (2001) Effects of twin-beam “squashed” light on a three-level atom. Physical Review A 64:4.
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O.V. Misochko, P. Gu & K. Sakai. (2000) Coherent phonons in InSb and their properties from femtosecond pump–probe experiments. Physica B: Condensed Matter 293:1-2, pages 33-37.
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J. P. Clemens, P. R. Rice, P. K. Rungta & R. J. Brecha. (2000) Two-level atom in an optical parametric oscillator: Spectra of transmitted and fluorescent fields in the weak-driving-field limit. Physical Review A 62:3.
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O. V. Misochko, K. Sakai & S. Nakashima. (2000) Phase-dependent noise in femtosecond pump-probe experiments on Bi and GaAs. Physical Review B 61:17, pages 11225-11228.
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O.V Misochko. (2000) Implication of phase-dependent noise of coherent phonons in YBa2Cu3O7−δ. Physics Letters A 269:2-3, pages 97-102.
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Matthias Jakob & Gagik Yu. Kryuchkyan. (2000) Interaction of a bichromatically driven two-level atom with a squeezed vacuum: Photon statistics and squeezing. Physical Review A 61:5.
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O. V. Misochko, K. Kisoda, K. Sakai & S. Nakashima. (2000) Peculiar noise properties of phonons generated by femtosecond laser pulses in antimony. Applied Physics Letters 76:8, pages 961-963.
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