Experimental observation of self-imaging in SMF-28 optical fibers

Spatial self-imaging, consisting of the periodic replication of the optical transverse beam profile along the propagation direction, can be achieved in guided wave systems when all excited modes interfere in phase. We exploited material defects photoluminescence for directly visualizing self-imaging...

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Veröffentlicht in:Optics express 2021-04, Vol.29 (8), p.12625-12633
Hauptverfasser: Mangini, F, Ferraro, M, Zitelli, M, Niang, A, Tonello, A, Couderc, V, Sidelnikov, O, Frezza, F, Wabnitz, S
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container_end_page 12633
container_issue 8
container_start_page 12625
container_title Optics express
container_volume 29
creator Mangini, F
Ferraro, M
Zitelli, M
Niang, A
Tonello, A
Couderc, V
Sidelnikov, O
Frezza, F
Wabnitz, S
description Spatial self-imaging, consisting of the periodic replication of the optical transverse beam profile along the propagation direction, can be achieved in guided wave systems when all excited modes interfere in phase. We exploited material defects photoluminescence for directly visualizing self-imaging in a few-mode, nominal singlemode SMF-28 optical fiber. Visible luminescence was excited by intense femtosecond infrared pulses via multiphoton absorption processes. Our method permits us to determine the mode propagation constants and the cutoff wavelength of transverse fiber modes.
doi_str_mv 10.1364/OE.419472
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title Experimental observation of self-imaging in SMF-28 optical fibers
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