2015
DOI: 10.1364/oe.23.012989
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Manipulating the spatial coherence of a laser source

Abstract: An efficient method for controlling the spatial coherence has previously been demonstrated in a modified degenerate cavity laser. There, the degree of spatial coherence was controlled by changing the size of a circular aperture mask placed inside the cavity. In this paper, we extend the method and perform general manipulation of the spatial coherence properties of the laser, by resorting to more sophisticated intra-cavity masks. As predicted from the Van Cittert Zernike theorem, the spatial coherence is shown … Show more

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Cited by 40 publications
(13 citation statements)
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“…A further manipulation of the spatial coherence properties is obtained by resorting to more sophisticated intra-cavity spatial filters (masks) in the degenerate cavity laser 67 . For example, a variable slit which enables independent control of the spatial coherence length in one coordinate axis without affecting that in the other axis; two pinholes, an annular band and an array of circular holes can generate cosine, Bessel and comb-like spatial coherence functions, respectively.…”
Section: Degenerate Cavity Lasermentioning
confidence: 99%
“…A further manipulation of the spatial coherence properties is obtained by resorting to more sophisticated intra-cavity spatial filters (masks) in the degenerate cavity laser 67 . For example, a variable slit which enables independent control of the spatial coherence length in one coordinate axis without affecting that in the other axis; two pinholes, an annular band and an array of circular holes can generate cosine, Bessel and comb-like spatial coherence functions, respectively.…”
Section: Degenerate Cavity Lasermentioning
confidence: 99%
“…The modal frequency spectrum with separation of time scales is also similar to that of multimode fiber lasers that are not extremely long (typical length 100 m). We therefore see a general link between the near degeneracy of the spatial modes in gain and loss (enabling support of many spatial modes even in the presence of mode competition [17,47]) and their near degeneracy in frequency.…”
Section: Modal Frequency Spectrum Analysismentioning
confidence: 84%
“…Either an LED or a laser can be employed once their spatial coherence is properly controlled, yielding a 1D coherent beam. It is promising to use a laser with tunable spatial coherence [23] such as degenerate cavity lasers [24]. Our simple approach has potential for advancing LSFM systems [25], including generation of multiple light-sheets in 3D [26,27].…”
Section: Discussionmentioning
confidence: 99%