Flat gain over arbitrary orbital angular momentum modes in Brillouin amplification

Hongwei Li; Bo Zhao; Liwei Jin; Dongmei Wang; Wei Gao

doi:doi:10.1364/PRJ.7.000748

Photonics Research, 2019, 7 (7): 07000748, Published Online: Jun. 17, 2019

Flat gain over arbitrary orbital angular momentum modes in Brillouin amplification Download： 544次

Hongwei Li ^1,2Bo Zhao ^1,2Liwei Jin ^1,2Dongmei Wang ^1,2Wei Gao ^1,2,*

Author Affiliations

¹ Heilongjiang Provincial Key Laboratory of Quantum Manipulation & Control, Harbin University of Science and Technology, Harbin 150080, China

² Department of Physics, School of Science, Harbin University of Science and Technology, Harbin 150080, China

Figures & Tables

Fig. 1. Simulation results. The propagation evolution in free space of the vortex beam with l=1 (a1)–(a5) and l=10 (b1)–(b5), respectively. The intensity distributions of the (c1) Gaussian-shaped pump beam and (c2)–(c5) OAM-carrying Stokes signal beams with different orders at the propagating distance of 40 cm, respectively.

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Fig. 2. Simulation results for the propagation behavior of Stokes beams with l=2, 6, and 10 near the image plane through (a)–(c) two lenses with f1=f2=10 cm, respectively, and (d1)–(d9) two lenses with f1=10 cm and f2=5 cm, respectively, for l=10.

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Fig. 3. Experimental setup. HWP, half-wave plate; PBS1 and PBS2, polarized beam splitter; QWP1 and QWP2, quarter-wave plate; BA-cell, Brillouin amplifier cell; L1–L4, lens. (a) The intensity distribution of the wave source of the OAM mode. The intensity distribution of the OAM mode at the center of BA-cell (b) without and (c) with utilizing the 4f imaging system.

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Fig. 4. Experimental results. (a) Amplified Gaussian-profile beam. (b1)–(b4) The intensity distribution of output OAM beams without the 4f imaging system. Utilizing the 4f imaging system, the intensity profiles of the amplified OAM beam at (c1)–(c4) the secondary image plane and (d1)–(d4) the propagating distance of 40 cm, where the orders are set to 2, 6, 8, and 10, respectively. (e) Simulation curves and experimental results of the mode gain versus its orders.

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Fig. 5. Gain versus the pump energies for the OAM mode of l=10.

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Hongwei Li, Bo Zhao, Liwei Jin, Dongmei Wang, Wei Gao. Flat gain over arbitrary orbital angular momentum modes in Brillouin amplification[J]. Photonics Research, 2019, 7(7): 07000748.

Flat gain over arbitrary orbital angular momentum modes in Brillouin amplification Download： 544次

Fig. 2. Simulation results for the propagation behavior of Stokes beams with l=2, 6, and 10 near the image plane through (a)–(c) two lenses with f1=f2=10 cm, respectively, and (d1)–(d9) two lenses with f1=10 cm and f2=5 cm, respectively, for l=10.

Fig. 5. Gain versus the pump energies for the OAM mode of l=10.

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Flat gain over arbitrary orbital angular momentum modes in Brillouin amplification Download： 544次

Fig. 2. Simulation results for the propagation behavior of Stokes beams with l=2, 6, and 10 near the image plane through (a)–(c) two lenses with f1=f2=10 cm, respectively, and (d1)–(d9) two lenses with f1=10 cm and f2=5 cm, respectively, for l=10.

Fig. 5. Gain versus the pump energies for the OAM mode of l=10.

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