Letter abstract
Nature Physics 2, 737 - 742 (2006)
doi:10.1038/nphys427
Subject Categories: Optical physics | Electronics, photonics and device physics
Tunable refraction and reflection of self-confined light beams
Marco Peccianti1, Andriy Dyadyusha2, Malgosia Kaczmarek2 and Gaetano Assanto1
Light filaments or optical spatial solitons are self-confined (non-spreading) beams that originate from the balance between diffraction and self-focusing in nonlinear optical media (those with a response dependent on the level of excitation)1, 2, 3. Owing to their ability to self-trap as well as to guide weaker signals (even if differing in colour or modulation format) within the waveguides or 'light-pipes' they induce, optical spatial solitons could form the basis of future all-optical processing networks4, 5. One of the most interesting challenges in soliton propagation and engineering concerns light filaments incident on linear/nonlinear or nonlinear/nonlinear interfaces. Here we report the robust propagation, refraction and reflection of optical spatial solitons at the interface between two regions of a nematic liquid crystal. The ability to independently tune the optical properties of each region enables us to steer the beams by refraction and total internal reflection by as much as -18 and +22 degrees, respectively. Moreover, the extended (nonlocal) and anisotropic response of our system supports polarization healing of the solitons across the interface as well as non-specular filament reflection. Finally, exploiting the inherent and all-optically tunable birefringence, we demonstrate unprecedented nonlinear Goos–Hänchen lateral shifts in excess of 0.5 mm.
- NooEL—Nonlinear optics and optoElectronics Lab, Department of Electronic Engineering, INFN and CNISM, University "Roma Tre", Via della Vasca Navale 84-00146, Rome, Italy
- School of Physics and Astronomy, University of Southampton, Southampton SO17 1BJ, UK
Correspondence to: Marco Peccianti1 e-mail: m.peccianti@uniroma3.it
Correspondence to: Gaetano Assanto1 e-mail: assanto@uniroma3.it
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