Gap-type dark localized modes in a Bose-Einstein condensate with optical lattices  被引量:7

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作  者:Liangwei Zeng Jianhua Zeng 

机构地区:[1]Chinese Academy of Sciences,Xi’an Institute of Optics and Precision Mechanics,State Key Laboratory of Transient Optics and Photonics,Xi’an,China [2]University of Chinese Academy of Sciences,Beijing,China

出  处:《Advanced Photonics》2019年第4期32-41,共10页先进光子学(英文)

基  金:This work was supported,in part,by the National Natural Science Foundation of China(Project Nos.61690224 and 61690222);the Youth Innovation Promotion Association of the Chinese Academy of Sciences(Project No.2016357).

摘  要:Bose-Einstein condensate(BEC)exhibits a variety of fascinating and unexpected macroscopic phenomena,and has attracted sustained attention in recent years-particularly in the field of solitons and associated nonlinear phenomena.Meanwhile,optical lattices have emerged as a versatile toolbox for understanding the properties and controlling the dynamics of BEC,among which the realization of bright gap solitons is an iconic result.However,the dark gap solitons are still experimentally unproven,and their properties in more than one dimension remain unknown.In light of this,we describe,numerically and theoretically,the formation and stability properties of gap-type dark localized modes in the context of ultracold atoms trapped in optical lattices.Two kinds of stable dark localized modes-gap solitons and soliton clusters-are predicted in both the one-and two-dimensional geometries.The vortical counterparts of both modes are also constructed in two dimensions.A unique feature is the existence of a nonlinear Bloch-wave background on which all above gap modes are situated.By employing linear-stability analysis and direct simulations,stability regions of the predicted modes are obtained.Our results offer the possibility of observing dark gap localized structures with cutting-edge techniques in ultracold atoms experiments and beyond,including in optics with photonic crystals and lattices.

关 键 词:Bose–Einstein condensates optical lattices photonic crystals and lattices self-defocusing Kerr nonlinearity dark gap solitons and soliton clusters 

分 类 号:O469[理学—凝聚态物理]

 

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