Zhiqiang Nie scite author profile

We demonstrate a novel type of stable multicomponent vector solitons consisting of two perpendicular four-wave mixing (FWM) dipole components induced by electromagnetically induced gratings. We analyze the formation and steering of the steady dipole solitons and their dynamical (energy transfer) effects. The dipole-mode solitons of two FWM processes have horizontal and vertical orientations, respectively. Omnidirectional Bragg reflections are also investigated.

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Interacting multiwave mixing in a five-level atomic system

Nie

Zheng

et al. 2008

Phys. Rev. A

103

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We study three ͑nested, parallel, and sequential cascade͒ types of schemes for doubly dressed four-wavemixing processes in an open five-level atomic system. The interaction between two dressing fields of the nested-cascade scheme is strongest and weakest for the parallel-cascade scheme, with the sequential scheme intermediate between them. Mutual-dressing processes and constructive or destructive interference between two coexisting dressed multiwave mixing channels in such a system are also considered. Investigations of these multidressing mechanisms and interactions are very useful to understand and control the generated high-order nonlinear optical signals.

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Evidence of Autler–Townes splitting in high-order nonlinear processes

et al. 2010

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We demonstrate Autler-Townes (AT) splitting of four-wave mixing in an electromagnetically induced transparency window, which results from the destructive interference between a three-photon process and a five-photon process. The primary and secondary AT splittings are achieved via induced atomic coherence in a four-level Y-type atomic system. Theoretical calculations fit well with the experimentally measured results. Such controlled multichannel splitting of nonlinear optical signals can have potential applications in optical communication and quantum information processing.

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Observation of enhancement and suppression in four-wave mixing processes

Zheng

Zhang

et al. 2009

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We report our observations of enhancement and suppression between two competing four-wave mixing ͑FWM͒ processes. The results show the evolution of the dressed effects ͑from pure enhancement into pure suppression͒ in the degenerate FWM processes. Moreover, due to induced atomic coherence in the system, there exist different interplays between these two FWM processes via different detuning parameters. In addition, the power dependences of enhancement and suppression are studied. Theoretical calculations are carried out, which are in good agreement with the experimental observations.

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Controlling four-wave mixing and six-wave mixing in a multi-Zeeman-sublevel atomic system with electromagnetically induced transparency

Zhang

Zuo

et al. 2009

Phys. Rev. A

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We theoretically investigate the dually dressed electromagnetically induced transparency, and the multidressed four-wave mixing ͑FWM͒ and six-wave mixing ͑SWM͒ processes in an inverted-Y-type atomic system with Zeeman sublevels. The results show that the Zeeman degeneracy of the dark states can be lifted by the dressing field as its intensity is increased. Moreover, the derived analytical expressions indicate that one can, for example, selectively create secondary dark states on the multi-Zeeman-sublevel dark states ͑by tuning the coupling field͒, distinguish two different types of dark states generated in two FWM processes ͑by properly controlling the coupling field intensity͒, and selectively enhance multi-FWM signals coming from various paths consisting of split Zeeman sublevels ͑by tuning the dressing field͒. The SWM signals can be either enhanced or suppressed by controlling the dressing field.

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Zhiqiang Nie

Four-Wave Mixing Dipole Soliton in Laser-Induced Atomic Gratings

Interacting multiwave mixing in a five-level atomic system

Evidence of Autler–Townes splitting in high-order nonlinear processes

Observation of enhancement and suppression in four-wave mixing processes

Controlling four-wave mixing and six-wave mixing in a multi-Zeeman-sublevel atomic system with electromagnetically induced transparency

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