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Control of coherent backscattering by breaking optical reciprocity

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arxiv 1505.01507 v1 pith:2QUMZG7K submitted 2015-05-06 physics.optics quant-ph

Control of coherent backscattering by breaking optical reciprocity

classification physics.optics quant-ph
keywords reciprocitycoherentcontrolphysicsbackscatteringbreakingclassicalinterference
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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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

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