Nonlinear transmission through a tapered fiber in rubidium vapor

Subwavelength-diameter tapered optical fibers surrounded by rubidium vapor can undergo a substantial decrease in transmission at high atomic densities due to the accumulation of rubidium atoms on the surface of the fiber. Here we demonstrate the ability to control these changes in transmission using light guided within the taper. We observe transmission through a tapered fiber that is a nonlinear function of the incident power. This effect can also allow a strong control beam to change the transmission of a weak probe beam.

[1]  D. Meschede,et al.  Ultra-sensitive surface absorption spectroscopy using sub-wavelength diameter optical fibers. , 2007, Optics express.

[2]  G S Pati,et al.  Observation of nonlinear optical interactions of ultralow levels of light in a tapered optical nanofiber embedded in a hot rubidium vapor. , 2008, Physical review letters.

[3]  G I Stegeman,et al.  Enhanced self-phase modulation in tapered fibers. , 1993, Optics letters.

[4]  V. I. Balykin,et al.  Atom trapping and guiding with a subwavelength-diameter optical fiber , 2004 .

[5]  P. Shankar,et al.  A review of fiber-optic biosensors , 2007 .

[6]  V. I. Balykin,et al.  Atom trap and waveguide using a two-color evanescent light field around a subwavelength-diameter optical fiber , 2004 .

[7]  Kohzo Hakuta,et al.  Light-induced force and torque on an atom outside a nanofiber , 2006 .

[8]  Fam Le Kien,et al.  Optical nanofiber as an efficient tool for manipulating and probing atomic Fluorescence. , 2007, Optics express.

[9]  E. Cornell,et al.  Teflon feedthrough for coupling optical fibers into ultrahigh vacuum systems. , 1998, Applied optics.

[10]  Alexander L. Gaeta,et al.  Low-Light-Level Optical Interactions with Rubidium Vapor in a Photonic Band-Gap Fiber , 2006 .

[11]  Yanrong Song,et al.  Supercontinuum generation in tapered fibers , 2009, 2009 Asia Communications and Photonics conference and Exhibition (ACP).

[12]  C. Marinelli,et al.  Desorption of Rb and Cs from PDMS induced by non resonant light scattering , 2006 .

[13]  Markus Wilde,et al.  Classification of Light-Induced Desorption of Alkali Atoms in Glass Cells Used in Atomic Physics Experiments , 2006 .

[14]  C. Adams,et al.  Absolute absorption on rubidium D lines: comparison between theory and experiment , 2008, 0805.1139.

[15]  C. C. Wang,et al.  Nonlinear optics. , 1966, Applied optics.

[16]  Limin Tong,et al.  Single-mode guiding properties of subwavelength-diameter silica and silicon wire waveguides. , 2004, Optics express.

[17]  K. Vahala,et al.  Ideality in a fiber-taper-coupled microresonator system for application to cavity quantum electrodynamics. , 2003, Physical review letters.

[18]  T. van Zoest,et al.  Ultraviolet light-induced atom desorption for large rubidium and potassium magneto-optical traps , 2005, cond-mat/0509241.

[19]  N. Bloembergen Nonlinear optics and spectroscopy. , 1982, Science.

[20]  T. Birks,et al.  Shape of fiber tapers , 1992 .

[21]  Valeriy V. Yashchuk,et al.  Light-induced desorption of alkali-metal atoms from paraffin coating , 2002 .

[22]  Emilio Mariotti,et al.  Light-Induced Atom Desorption , 1994 .