Sebastian Brake scite author profile

We present a method to demonstrate Anderson localization in an optically induced randomized potential. By usage of computer controlled spatial light modulators, we are able to implement fully randomized nondiffracting beams of variable structural size in order to control the modulation length (photonic grain size) as well as the depth (disorder strength) of a random potential induced in a photorefractive crystal. In particular, we quantitatively analyze the localization length of light depending on these two parameters and find that they are crucial influencing factors on the propagation behavior leading to variably strong localization. Thus, we corroborate that transverse light localization in a random refractive index landscape strongly depends on the character of the potential, allowing for a flexible regulation of the localization strength by adapting the optical induction configuration.

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Observation of transverse coherent backscattering in disordered photonic structures

Boguslawski

Brake

Leykam

et al. 2017

Sci Rep

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Coherent backscattering, also referred to as weak localization, is an exciting multidisciplinary phenomenon that appears in disordered systems of multiple coherent-wave scattering. Providing proper scattering conditions in (2 + 1) dimensional randomized photonic systems, we optically implement, observe, and analyse transverse coherent backscattering. Ensembles of disordered wave-guide structures are prepared by random-intensity nondiffracting writing entities according to the beam’s intensity distribution. The structure size of the induced potentials naturally define an effective mobility edge, and thus, we identify a crucial impact of the plane probe waves’ spatial frequency on the strength and shape of the spectral coherent backscattering signal. We additionally observe transverse elastic scattering as a precursor of weak localization. To testify the coherent character as a fundamental condition for coherent backscattering, we propose a scheme to continuously reduce the spatial coherence of the probe beam which directly reduces the degree of localization and coherent backscattering. With our experiments, we propose a testing platform that allows comprehensive examination of coherent backscattering with a broad set of preparation parameters and under uncritical laboratory conditions. Our results are directly transferable to more complex systems of disordered wave potentials, not being restricted to photonic systems.

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Observation of transverse coherent backscattering in disordered photonic structures

Brake¹,

Boguslawski²,

Leykam³

et al. 2015

Preprint

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We report on the experimental observation of weak localization in an optically induced disordered (2+1)-dimensional photonic structure. Our flexible method of optical induction is applied with a nondiffracting random intensity distribution. We focus on the analysis of a statistical output spectrum for many probe events with variance of the incoming beam's transverse spatial frequency. For particular spatial frequencies we find considerable signatures of transverse coherent backscattering.

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Nonlinear complex photonic structures

Boguslawski

Rose

Diebel

et al. 2013

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Transition from diffraction in regular to Anderson localization in randomized nondiffracting photonic structures

Boguslawski

Brake

Rose

et al. 2013

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Sebastian Brake

Analysis of transverse Anderson localization in refractive index structures with customized random potential

Observation of transverse coherent backscattering in disordered photonic structures

Observation of transverse coherent backscattering in disordered photonic structures

Nonlinear complex photonic structures

Transition from diffraction in regular to Anderson localization in randomized nondiffracting photonic structures

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