Journal ArticleDOI
Optical amplification of diffraction-free beams by photorefractive two-wave mixing and its application to laser Doppler velocimetry
TLDR
The Fraunhofer diffraction pattern of a narrow annular slit is recorded holographically to generate a beam that approximates a diffraction-free Bessel beam, and this beam is amplified by two-wave mixing in a photorefractive crystal.Abstract:
The Fraunhofer diffraction pattern of a narrow annular slit is recorded holographically to generate a beam that approximates a diffraction-free Bessel beam. The experimental limitations resulting from the annular-slit parameters such as the opening width and the transmission coefficient are discussed. The reconstructed Bessel beam is amplified by two-wave mixing in a photorefractive crystal. Thus the efficient conversion of a relatively large beam with a constant (or Gaussian) intensity distribution into a nondiffracting beam is achieved entirely by direct physical interference. We show that diffraction-free beams reproduced and amplified in this way can be applied to the measurement of the velocity of small objects by the use of the laser Doppler technique. In addition, the advantages of Bessel beams, especially in measuring the velocity of solids, are discussed.read more
Citations
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Journal ArticleDOI
Nondiffracting stationary electromagnetic field
R. Horak,Z. Bouchal,J. Bajer +2 more
TL;DR: A class of electromagnetic fields which are nondiffracting, in the sense of a given definition, is investigated in this paper, where the amplitudes of the electric and magnetic vectors are proportional to the superposition of Bessel functions and the phases can have features of vector optical vortices.
Journal ArticleDOI
Experiments on Double Phase Conjugate Mirror with a Photorefractive Sb:Sn2P2S6 Crystal
TL;DR: In this article, the authors presented various optical basic properties of a 1.5% doped Sb:Sn2P2S6 crystal and demonstrated a double phase conjugate mirror (DPCM).
Journal ArticleDOI
Efficient pseudo-nondiffracting beam shaping using a quasicontinuous-phase diffractive element
TL;DR: In this article, a diffractive beam shaper with a quasicontinuous phase structure was proposed to transform a Gaussian beam into a pseudo-nondiffracting beam with a relatively flat on-axis intensity distribution in the propagation range.
Journal ArticleDOI
Enhancement of the coupling efficiency in optical fibers using a two-beam optical interference
TL;DR: In this paper, the central fringe of a two-beam interference pattern was used to enhance the coupling efficiency of a 3.3 μm wide fiber with a numerical aperture of 0.16.
Journal ArticleDOI
Coupling efficiency effects of launching a fringe pattern into a single-mode optical fiber
TL;DR: In this article, the authors discussed the effects on coupling efficiency of launching an optical fringe pattern into a single-mode optical fiber and showed that under some circumstances, coupling efficiencies of ∼90% can be obtained by the launching of the central fringe of a two-beam interference pattern into the fiber.
References
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Journal ArticleDOI
Diffraction-free beams.
TL;DR: The first experimental investigation of nondiffracting beams, with beam spots as small as a few wavelengths, can exist and propagate in free space, is reported.
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Exact solutions for nondiffracting beams. I. The scalar theory
TL;DR: In this paper, exact nonsingular solutions of the scalar-wave equation for beams that are non-diffracting were presented, which means that the intensity pattern in a transverse plane is unaltered by propagating in free space.
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Holographic storage in electrooptic crystals. i. steady state
TL;DR: In this paper, a non-linear theory of self-diffraction on the light induced grating of refractive index in electrooptic crystals is developed and the intensities of the diffracted beams, the diffraction efficiency, and the shape of the surfaces of equal index change are calculated analytically for saturation holograms.
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Realization of general nondiffracting beams with computer-generated holograms
TL;DR: This work shows by the method of stationary phase that any of these wave fields can be realized approximately with a laser and a single computer-generated hologram, and demonstrates experimentally the formation of arbitrary-order Bessel beams and rotationally nonsymmetric beams.