Based on our former theoretical analysis [Yaling Yin, et al, Opt. Commun. 281(22), 5511 (2008)], we experimentally design a simple optical device to generate a neat semi-Gaussian laser beam (SGB) without diffraction fringes by using a coherence attenuator and a thin sharp blade. The coherence attenuator is composed of two organic glasses and a piece of plastic film rotated by a motor, which can efficiently decrease the coherence of the laser field. In the experiment, we use He-Ne laser as light source and obtain a 632.8 nm neat SGB without diffraction fringes with a quality factor QSGB = 1: 16.42 at the propagating position z = 0.5 cm. The experimental results show that the generated SGB's quality factor decreases with the increasing of the propagating distance. The ascent border width of the generated SGB is independent on the waist radius and wavelength of the incident Gaussian beam, which corresponds well with the theoretical analysis. Our generated SGB can be widely used in modern optics for its asymmetric intensity profile and good propagating properties.
FANG Bin
,
YIN Ya-ling
,
YE Zhang-dong
,
MAO Zhi-xiang
,
GUO Chao-xiu
,
XIA Yong
. Experimental generation of a neat semi-Gaussian laser beam with a coherence attenuator[J]. Journal of East China Normal University(Natural Science), 2017
, (3)
: 87
-93,132
.
DOI: 10.3969/j.issn.1000-5641.2017.03.009
[1] YIN J P, GAO W J, ZHU Y F. Generation of dark hollow beams and their applications [J]. Prog Opt, 2003, 45: 119-204.
[2] SCHWEIGER G, NETT R, OZEL B, et al. Generation of hollow beams by spiral rays in multimode light guides[J]. Opt Express, 2010, 18(5): 4510-4517.
[3] GRANATA M, BUY C, WARD R, et al. Higher-order Laguerre-Gauss mode generation and interferometry for gravitational wave detectors [J]. Phys Rev Lett, 2010, 105(23): 2555-2558.
[4] BéLANGER P A, LACHANCE R L, PARé C. Super-Gaussian output from a CO2 laser by using a graded-phase mirror resonator [J]. Opt Lett, 1992, 17(10): 739-741.
[5] KASINSKI J J, BURNHAM R L. Near-diffraction-limited laser beam shaping with diamond-turned aspheric optics [J]. Opt Lett, 1997, 22(14): 1062-1064.
[6] LIU J S, TAGHIZADEH M R. Iterative algorithm for the design of diffractive phase elements for laser beam shaping [J]. Opt Lett, 2002, 27(16): 1463-1465.
[7] IMESHEV G, PROCTOR M, FEJER M M. Lateral patterning of nonlinear frequency conversion with trans-versely varying quasi-phase-matching gratings [J]. Opt Lett, 1998, 23(9): 673-675.
[8] YIN Y L, XIA Y, YIN J P. A neat semi-Gaussian laser beam with no diffraction fringes: Theoretical analysis[J]. Opt Commun, 2008, 281(22): 5511-5514.
[9] YIN Y L, LYU X J, ZHAO L N, et al. Nonlinear generation of a neat semi-Gaussian laser beam with a transversely varying periodically-poled LiTaO3 crystal [J]. Opt Express, 2011, 19(6): 5297-5302.
[10] ELLENBOGEN T, VOLOCH-BLOCH N, GANANY-PADOWICZ A, et al. Nonlinear generation and manipula-tion of Airy beams [J]. Nat Photonics, 2009, 3(7): 395-398.
[11] DING Y J, GUO C L, SWARTZLANDER G A, et al. Spectral measurement of the nonlinear refractive index in ZnSe using self-bending of a pulsed laser beam [J]. Opt Lett, 1990, 15(24): 1431-1433.
[12] YIN Y L, XIA Y, YIN J P. Deceleration of a continuous-wave (CW) molecular beam with a single quasi-CW semi-Gaussian laser beam [J]. Chin Phys B, 2008, 17(10): 3672-3676.
[13] ZHENG P, GAO W J, YIN J P. Novel atomic mirror with a blue-detuned semi-Gaussian beam [J]. Chin Phys Lett, 2003, 20(3): 379-382.
[14] XIE C X, WANG Z L, YIN J P. A Novel Gravito-Optical Surface Trap for Neutral Atoms [J]. Chin Phys Lett, 2006, 23(4): 822-825.
[15] YIN Y L, ZHOU Q, XIA Y, et al. A novel mirror for cold molecules with a semi-Gaussian beam [J]. Chin Phys Lett, 2008, 25(9): 3215-3218.
[16] LI J C, MERLIN J, PEREZ J. Etude comparative de différents dispositifs permettant de transformer un faisceau laser de puissance avec une répartition énergétique gaussienne en une répartition uniforme [J]. Rev Phys Appl, 1986, 21: 425-433.
[17] GUO C X, LING C, DU X L, et al. Theoretical study on propagation properties of semi-Gaussian laser beam[J]. Laser & Optoelectronics Progress, 2013, 50: 121405-121431.
[18] BORN M, WOLF E. Principles of Optics [M]. Cambridge: Cambridge University Press, 1980.
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