PhotoniX, Volume. 5, Issue 1, 15(2024)
Producing focused extreme ultraviolet vortex with Fermat-spiral photon sieves
[9] [9] Géneaux R, Camper A, Auguste T, Gobert O, Caillat J, Taieb R, Ruchon T. Synthesis characterization of attosecond light vortices in the extreme ultraviolet. Nat Commun. 2016;7:12583–1–6.
[10] [10] Rego L, San Román J, Picón A, Plaja L, Hernández-García C. Nonperturbative Twist in the Generation of Extreme-Ultraviolet Vortex Beams. Phys Rev Lett. 2016;117(16):163202–1–6.
[16] [16] Shen Y, Wang X, Xie Z, Min C, Fu X, Liu Q, Gong M, Yuan X. Optical vortices 30 years on: OAM manipulation from topological charge to multiple singularities. Light Sci Appl. 2019;8:90–1–29.
[17] [17] Hernandez-Garcıa C, Picon A, San Roman J, Plaja L. Attosecond Extreme Ultraviolet Vortices from High-Order Harmonic Generation. Light Sci Appl. 2013;111(8):083602–1–5.
[18] [18] Pandey AK, de las Heras A, Larrieu T, San Román J, Serrano J, Plaja L, Baynard E, Pittman M, Dovillaire G, Kazamias S, Hernández-García C, Guilbaud O. Characterization of Extreme-Ultraviolet Vortex Beams with very high topological charge. ACS Photon. 2022;9(3):944–51.
[19] [19] Kong F, Zhang C, Bouchard F, Li Z, Brown GG, Ko DH, Hammond TJ, Arissian L, Boyd RW, Karimi E, Corkum PB. Controlling the orbital angular momentum of high harmonic vortices. Nat Commun. 2017;8:14970–1–6.
[22] [22] Huang Q, Lu X, Zhang H, Wang Z, Yang Y, Zhan Q, Cai Y, Zhao C. Economical generation of high-quality optical vortices with gradual-width Fermat spiral slit mask. Sci China Phys Mech Astron. 2023;66(4):244211–1–9.
[23] [23] Ebrahimi H, Sabatyan A. Multi-region spiral photon sieve to produce tailorable multiple vortex. Opt Laser Technol. 2020;126:106137–1–6.
[25] [25] Bai Y, Lv H, Fu X, Yang Y. Vortex beam: generation and detection of orbital angular momentum [Invited]. Chin Opt Lett. 2022;20(1):012601–1–15.
[26] [26] Yang Y, Thirunavukkarasu G, Babiker M, Yuan J. Orbital-Angular-Momentum Mode Selection by Rotationally Symmetric Superposition of Chiral States with Application to Electron Vortex Beams. Phys Rev Lett. 2017;119(9):094802–1–5.
[30] [30] Zhao Y, Liu T, Zhang W, Li W, Cui H. Demonstration of gain saturation and double-pass amplification of a 69.8nm laser pumped by capillary discharge. Opt Lett. 2016;41(16):3779–82.
[31] [31] Zhao Y, Zhao D, An B, Li L, Bai Y, Cui H. Demonstration of double-pass amplification of gain saturated 46.9 nm laser. Opt Commun. 2022;506:127571.
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Junyong Zhang, Huaiyu Cui, Yuanyuan Liu, Xiuping Zhang, You Li, Dongdi Zhao, Yongpeng Zhao, Qiwen Zhan. Producing focused extreme ultraviolet vortex with Fermat-spiral photon sieves[J]. PhotoniX, 2024, 5(1): 15
Category: Research Articles
Received: Feb. 2, 2024
Accepted: Apr. 8, 2024
Published Online: Jan. 23, 2025
The Author Email: Zhang Junyong (zhangjy829@siom.ac.cn), Zhao Yongpeng (zhaoyp3@hit.edu.cn), Zhan Qiwen (qwzhan@usst.edu.cn)