LP01-mode output beam from a micro-sized hollow optical fiber: A simple theoretical model and its applications in atom optics Article

Yin, J, Zhu, Y. (1999). LP01-mode output beam from a micro-sized hollow optical fiber: A simple theoretical model and its applications in atom optics . JOURNAL OF APPLIED PHYSICS, 85(5), 2473-2481. 10.1063/1.369608

cited authors

  • Yin, J; Zhu, Y

authors

abstract

  • We calculate electric field distributions of the output beam from a LP01 mode in a micro-sized hollow optical fiber under the Fresnel approximation and find that the output beam characteristics in free space is similar to that of a TEM*01 doughnut laser beam. We propose a simple theoretical model, a modified TEM*01 doughnut beam, to simulate the free-space output beam from the LP01 mode in hollow fibers, and discuss potential applications of the LP01-mode output beam in atomic guiding, funneling, cooling, and trapping. Our study shows that this model is in good agreement with the numerical results derived from the Fresnel diffraction theory (except near the weak first-order diffraction ring around the zero-order diffraction peak). The model can be conveniently used to calculate the optical potential, gradient force, light-induced acceleration, spontaneous-emission rate, and quantum tunneling loss in atomic guiding, funneling, and trapping with the LP01-mode output beam in free space. It can be also used to study the optical-potential evaporative cooling of cold atoms in a gravito-optical trap constructed by the LP01-mode output beam. © 1999 American Institute of Physics.

publication date

  • January 1, 1999

published in

Digital Object Identifier (DOI)

start page

  • 2473

end page

  • 2481

volume

  • 85

issue

  • 5