Dynamical deformed Airy beams with arbitrary angles between two wings
Research Area: Uncategorized Year: 2014
Type of Publication: Article  
Authors:
  • Yi Liang
  • Yi Hu
  • Zhuoyi Ye
  • Daohong Song
  • Cibo Lou
  • Xinzheng Zhang
  • Jingjun Xu
  • Roberto Morandotti
  • Zhigang Chen
 
Journal: Journal of the Optical Society of America A: Optics and Image Science, and Vision Volume: 31
Number: 7 Pages: 1468-1472
Month: July
   
Abstract:
We study both numerically and experimentally the acceleration and propagation dynamics of 2D Airy beams with arbitrary initial angles between their "two wings." Our results show that the acceleration of these generalized 2D Airy beams strongly depends on the initial angles and cannot be simply described by the vector superposition principle (except for the normal case of a 90° angle). However, as a result of the "Hyperbolic umbilic" catastrophe (a two-layer caustic), the main lobes of these 2D Airy beams still propagate along parabolic trajectories even though they become highly deformed. Under such conditions, the peak intensity (leading energy flow) of the 2D Airy beams cannot be confined along the main lobe, in contrast to the normal 90° case. Instead, it is found that there are two parabolic trajectories describing the beam propagation: one for the main lobe, and the other for the peak intensity. Both trajectories can be readily controlled by varying the initial wing angle. Due to their self-healing property, these beams tend to evolve into the well-known 1D or 2D Airy patterns after a certain propagation distance. The theoretical analysis corroborates our experimental observations, and explains clearly why the acceleration of deformed Airy beams increases with the opening of the initial wing angle. © 2014 Optical Society of America.
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