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Literature DB >> 22410903

Fast M2 measurement for fiber beams based on modal analysis.

Daniel Flamm¹, Christian Schulze, Robert Brüning, Oliver A Schmidt, Thomas Kaiser, Siegmund Schröter, Michael Duparré.

Abstract

We report on a fast and experimentally easy technique for measuring the beam propagation ratio M(2) of light guided by optical fibers. A holographic filter enables us to determine amplitudes and phases of the excited fiber eigenmodes. The coherent superposition of modes allows the reconstruction of the optical field. With this information at hand, we are able to simulate the free-space propagation of the beam and to perform a virtual caustic measurement. Associated beam propagation ratios M(2) accurately agree with ISO-standard measurements.

Year: 2012 PMID： 22410903 DOI： 10.1364/AO.51.000987

Source DB: PubMed Journal: Appl Opt ISSN： 1559-128X Impact factor: 1.980

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Cited

2 in total

1. Measurement of M²-Curve for Asymmetric Beams by Self-Referencing Interferometer Wavefront Sensor.

Authors: Yongzhao Du
Journal: Sensors (Basel) Date: 2016-11-29 Impact factor: 3.576

2. Wavelength-tunable passively mode-locked mid-infrared Er³⁺-doped ZBLAN fiber laser.

Authors: Yanlong Shen; Yishan Wang; Hongwei Chen; Kunpeng Luan; Mengmeng Tao; Jinhai Si
Journal: Sci Rep Date: 2017-11-02 Impact factor: 4.379

2 in total

Fast M2 measurement for fiber beams based on modal analysis.

1. Measurement of M²-Curve for Asymmetric Beams by Self-Referencing Interferometer Wavefront Sensor.

2. Wavelength-tunable passively mode-locked mid-infrared Er3+-doped ZBLAN fiber laser.

2. Wavelength-tunable passively mode-locked mid-infrared Er³⁺-doped ZBLAN fiber laser.