Your search keyword '"Bromberg Y."' showing total 5 results

1. Control of coherent backscattering by breaking optical reciprocity

Author

Bromberg, Y., Redding, B., Popoff, S. M., and Cao, H.

Subjects

Physics - Optics, Quantum Physics

Abstract

Reciprocity is a universal principle that has a profound impact on many areas of physics. A fundamental phenomenon in condensed-matter physics, optical physics and acoustics, arising from reciprocity, is the constructive interference of quantum or classical waves which propagate along time-reversed paths in disordered media, leading to, for example, weak localization and metal-insulator transition. Previous studies have shown that such coherent effects are suppressed when reciprocity is broken. Here we show that by breaking reciprocity in a controlled manner, we can tune, rather than simply suppress, these phenomena. In particular, we manipulate coherent backscattering of light, also known as weak localization. By utilizing a non-reciprocal magneto-optical effect, we control the interference between time-reversed paths inside a multimode fiber with strong mode mixing, and realize a continuous transition from the well-known peak to a dip in the backscattered intensity. Our results may open new possibilities for coherent control of classical and quantum waves in complex systems, Comment: Comments are welcome

Published

2015

2. Critical States Embedded in the Continuum

Author

Koirala, M., Yamilov, A., Basiri, A., Bromberg, Y., Cao, H., and Kottos, T.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics

Abstract

We introduce a class of critical states which are embedded in the continuum (CSC) of one-dimensional optical waveguide array with one non-Hermitian defect. These states are at the verge of being fractal and have real propagation constant. They emerge at a phase transition which is driven by the imaginary refractive index of the defect waveguide and it is accompanied by a mode segregation which reveals analogies with the Dicke super -radiance. Below this point the states are extended while above they evolve to exponentially localized modes. An addition of a background gain or loss can turn these localized states to bound states in the continuum., Comment: 4.5 pages, 3 figures, 1 page of supplementary material including one figure

Published

2014

3. Light Localization induced by Random Imaginary Permittivities

Author

Basiri, A., Bromberg, Y., Yamilov, A., Cao, H., and Kottos, T.

Subjects

Condensed Matter - Disordered Systems and Neural Networks, Physics - Optics

Abstract

We show the emergence of light localization in arrays of coupled optical waveguides with randomness only in the imaginary part of their permittivity and develop a one-parameter scaling theory for the normalized participation number of the Floquet-Bloch modes. This localization introduces a new length scale in the decay of the autocorrelation function of a paraxial beam propagation. Our results are relevant to a vast family of systems with randomness in the dissipative part of their impedance spatial profile., Comment: five pages plus two pages of supplementary material

Published

2014

4. Hanbury Brown and Twiss Correlations of Anderson Localized Waves

Author

Lahini, Y., Bromberg, Y., Shechtman, Y., Szameit, A., Christodoulides, D. N., Morandotti, R., and Silberberg, Y.

Subjects

Condensed Matter - Disordered Systems and Neural Networks

Abstract

When light waves propagate through disordered photonic lattices, they can eventually become localized due to multiple scattering effects. Here we show experimentally that while the evolution and localization of the photon density distribution is similar in the two cases of diagonal and off-diagonal disorder, the density-density correlation carries a distinct signature of the type of disorder. We show that these differences reflect a symmetry in the spectrum and eigenmodes that exists in off-diagonally disordered lattices but is absent in lattices with diagonal disorder., Comment: 4 pages, 3 figures, comments welcome

Published

2011

5. Quantum and classical correlations in waveguide lattices

Author

Bromberg, Y., Lahini, Y., Morandotti, R., and Silberberg, Y.

Subjects

Quantum Physics

Abstract

We study quantum and classical Hanbury Brown-Twiss correlations in waveguide lattices. We develop a theory for the propagation of photon pairs in the lattice, predicting the emergence of nontrivial quantum interferences unique to lattice systems. Experimentally, we observe the classical counterpart of these interferences using intensity correlation measurements. We discuss the correspondence between the classical and quantum correlations, and consider path-entangled input states which do not have a classical analogue. Our results demonstrate that waveguide lattices can be used as a robust and highly controllable tool for manipulating quantum states, and offer new ways of studying the quantum properties of light., Comment: Comments are welcome

Published

2008