Effect of Doppler broadening on giant self-Kerr nonlinearity in a five-level ladder-type system

We study optical bistability (OB) in a controllable giant self-Kerr nonlinear atomic gaseous medium placed in a unidirectional ring cavity. The medium is coherently excited by strong controlling field and a weak probe laser field under electromagnetically induced transparency (EIT) and Doppler broadening. In a weak field limit of the probe light, an analytic OB equation for the probe light field is derived as an analytic function of parameters of the controlling field and temperature of the medium. It is shown that OB characters can be manipulated with the parameters due to the controllable properties of the self-Kerr nonlinearity. Furthermore, enhancement of the Kerr nonlinearity reduces the switching intensity threshold and width of the OB.

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Solitary waves of surface plasmon polariton via phase shifts under Doppler broadening and Kerr nonlinearity

The European Physical Journal Plus ◽

10.1140/epjp/i2017-11760-9 ◽

2017 ◽

Vol 132 (12) ◽

Cited By ~ 7

Author(s):

S. Ahmad ◽

A. Ahmad ◽

B. A. Bacha ◽

A. A. Khan ◽

M. S. Abdul Jabar

Keyword(s):

Surface Plasmon ◽

Solitary Waves ◽

Surface Plasmon Polariton ◽

Kerr Nonlinearity ◽

Phase Shifts ◽

Doppler Broadening ◽

Plasmon Polariton

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EIT enhanced self-Kerr nonlinearity in the three-level lambda system under Doppler broadening

Communications in Physics ◽

10.15625/0868-3166/24/3/3915 ◽

2014 ◽

Vol 24 (3) ◽

pp. 217 ◽

Cited By ~ 1

Author(s):

Dinh Xuan Khoa ◽

Le Van Doai ◽

Pham Van Trong ◽

Tran Manh Cuong ◽

Vu Ngoc Sau ◽

...

Keyword(s):

Matrix Theory ◽

Nonlinear Coefficient ◽

Kerr Nonlinearity ◽

The Self ◽

Doppler Broadening ◽

Low Light ◽

Probe Light ◽

Kerr Coefficient ◽

Density Matrix Theory ◽

Good Agreement

Using density-matrix theory, an analytical expression of the self-Kerr nonlinear coefficient of a three-level lambda EIT medium for a weak probe light is derived. Influences of the coupling light and Doppler broadening on the self-Kerr coefficient are investigated and compared to experimental observation with a good agreement. The self-Kerr nonlinearity is basically modified and greatly enhanced in the spectral region corresponding to EIT transparent window. Furthermore, sign, slope, and magnitude of the self-Kerr coefficient can be controlled with frequency and intensity of the coupling light and temperature. Such controllable Kerr nonlinearity can find interesting applications in optoelectronic devices working with low-light intensity.

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Coherent control of polarization state rotation via Doppler broadening and Kerr nonlinearity in a spinning fast light medium

Laser Physics ◽

10.1088/1054-660x/24/11/115404 ◽

2014 ◽

Vol 24 (11) ◽

pp. 115404 ◽

Cited By ~ 13

Author(s):

Habibur Rahman ◽

Hizbullah ◽

M S Abdul Jabar ◽

Anwar Ali Khan ◽

Iftikhar Ahmad ◽

...

Keyword(s):

Coherent Control ◽

Polarization State ◽

Kerr Nonlinearity ◽

Doppler Broadening ◽

Fast Light ◽

Light Medium

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Giant cross-Kerr nonlinearity in a four-level Y-type atomic system

Photonics Letters of Poland ◽

10.4302/plp.v13i3.1084 ◽

2021 ◽

Vol 13 (3) ◽

pp. 52

Author(s):

Nguyen Tuan Anh ◽

Nguyen Huy Bang ◽

Doai Van Le

Keyword(s):

Analytical Approach ◽

Atomic System ◽

Electromagnetically Induced Transparency ◽

Nonlinear Coefficient ◽

Kerr Nonlinearity ◽

Doppler Broadening ◽

Cascade System ◽

Atomic Medium ◽

Phase Gate ◽

Induced Transparency

We found the analytical expression for cross-Kerr nonlinear coefficient in a four-level Y-type atomic system. The analytical model is applied to 85Rb atoms and shown that under electromagnetically induced transparency, cross-Kerr nonlinear coefficient is enhanced by several orders of magnitude. At the same time, the amplitude and the sign of cross-Kerr nonlinear coefficient are controlled with respect to the intensity and the frequency of the coupling laser field. The analytical model can be useful to explain the experimental results and to study related effects in nonlinear optics. Full Text: PDF ReferencesC. Ottaviani, D. Vitali, M. Artoni, F. Cataliotti, P. Tombesi, "Polarization Qubit Phase Gate in Driven Atomic Media", Phys. Rev. Lett. 90, 197902 (2003). CrossRef C. Zhu, G. Huang, "Giant Kerr Nonlinearity, Controlled Entangled Photons and Polarization Phase Gates in Coupled Quantum-Well Structures", Opt. Express 19, 23364 (2011). CrossRef C. Hang, G. Huang, "Giant Kerr nonlinearity and weak-light superluminal optical solitons in a four-state atomic system with gain doublet", Opt. Express 18(3), 2952 (2010). CrossRef M. Fleischhauer, I. Mamoglu, and J. P. Marangos, "Electromagnetically induced transparency: Optics in coherent media", Rev. Mod. Phys. 77, 633 (2005). CrossRef H. Schmidt, And A. Imamogdlu, "Giant Kerr nonlinearities obtained by electromagnetically induced transparency", Opt. Lett., 21(23), 1936 (1996). CrossRef H. Kang And Y. Zhu, Phys. "Observation of Large Kerr Nonlinearity at Low Light Intensities", Rev. Lett., 91, 093601 (2003). CrossRef J. Kou, R. G. Wan, Z. H. Kang, H. H. Wang, L. Jiang, X. J. Zhang, Y. Jiang, and J. Y. Gao, "EIT-assisted large cross-Kerr nonlinearity in a four-level inverted-Y atomic system", J. Opt. Soc. Am. B. 27(10), 2035 (2010). CrossRef X. Yang, S. Li, C. Zhang, and H. Wang, "Enhanced cross-Kerr nonlinearity via electromagnetically induced transparency in a four-level tripod atomic system", J. Opt. Soc. Am. B. 26(7), 1423 (2009). CrossRef C. Ottaviani, D. Vitali, M. Artoni, F. Cataliotti and P. Tombesi, "Polarization Qubit Phase Gate in Driven Atomic Media", Phys. Rev. Lett. 90, 197902 (2003). CrossRef H. Sun, Y. Niu, S. Jin and S. Gong, "Phase control of cross-phase modulation with electromagnetically induced transparency", J. Phys. B: At. Mol. Opt. Phys. 40, 3037 (2007). CrossRef L.V. Doai, P.V. Trong, D.X. Khoa, and N.H. Bang, "Electromagnetically induced transparency in five-level cascade scheme of 85Rb atoms: An analytical approach", Optik, 125, 3666 (2014). CrossRef D. X. Khoa, P. V. Trong, L. V. Doai and N. H. Bang, "Electromagnetically induced transparency in a five-level cascade system under Doppler broadening: an analytical approach", Phys, Scr. 91, 035401 (2016). CrossRef D.X. Khoa, L.C. Trung, P.V. Thuan, L.V. Doai and N.H. Bang, "Measurement of dispersive profile of a multiwindow electromagnetically induced transparency spectrum in a Doppler-broadened atomic medium", J. Opt. Soc. Am. B 34 (6), 1255 (2017). CrossRef D. X. Khoa, L. V. Doai, D. H. Son, and N. H. Bang, "Enhancement of self-Kerr nonlinearity via electromagnetically induced transparency in a five-level cascade system: an analytical approach", J. Opt. Soc. Am. B., 31, 1330 (2014). CrossRef L.V. Doai, N.L.T. An, D.X. Khoa, V.N. Sau and N.H. Bang, "Manipulating giant cross-Kerr nonlinearity at multiple frequencies in an atomic gaseous medium", J. Opt. Soc. Am. B 36, 2856 (2019). CrossRef D. X. Khoa, L. V. Doai, L. N. M. Anh, L. C. Trung, P. V. Thuan, N. T. Dung, and N. H. Bang, "Optical bistability in a five-level cascade EIT medium: an analytical approach", J. Opt. Soc. Am. B, Vol. 33, 735 (2016). CrossRef N. T. Anh, L. V. Doai, and N. H. Bang, "Manipulating multi-frequency light in a five-level cascade-type atomic medium associated with giant self-Kerr nonlinearity", J. Opt. Soc. Am. B 35, 1233 (2018). CrossRef N. T. Anh, L. V. Doai, D. H. Son, and N. H. Bang, "Manipulating multi-frequency light in a five-level cascade EIT medium under Doppler broadening", Optik 171, 721 (2018). CrossRef D.A. Steck, Rb85 D Line Data: http://Steck.Us/Alkalidata/rubidium85numbers.pdf CrossRef

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