We investigate experimentally the role of spatial coherence on optical beam shifts. This topic has been the subject of recent theoretical debate. We consider Gaussian Schell-model beams, with different spatial degrees of coherence, reflected at an air-glass interface. We prove that the angular Goos-Hanchen and the angular Imbert-Fedorov effects are affected by the spatial degree of coherence of the incident beam, whereas, the spatial Goos-Hanchen effect does not depend on incoherence. Our data unambiguously resolve the theoretical debate in favor of one specific theory.
Observation of nonspecular effects for Gaussian Schell-model light beams
MERANO, MICHELE;UMBRIACO, GABRIELE;MISTURA, GIAMPAOLO
2012
Abstract
We investigate experimentally the role of spatial coherence on optical beam shifts. This topic has been the subject of recent theoretical debate. We consider Gaussian Schell-model beams, with different spatial degrees of coherence, reflected at an air-glass interface. We prove that the angular Goos-Hanchen and the angular Imbert-Fedorov effects are affected by the spatial degree of coherence of the incident beam, whereas, the spatial Goos-Hanchen effect does not depend on incoherence. Our data unambiguously resolve the theoretical debate in favor of one specific theory.
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