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Journals >NUCLEAR TECHNIQUES >Volume 48 >Issue 3 >Page 030201 > Article

NUCLEAR TECHNIQUES
Vol. 48, Issue 3, 030201 (2025)

Application of dynamic vibration absorber on mirror angular vibration suppression

Haoran YUAN, Shijing HE, Tianyu WU, Nuo CHEN..., Zhizhuo WANG, Zhengrong OUYANG and Fang LIU^*|Show fewer author(s)

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ShanghaiTech University, Shanghai 201210, China

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DOI: 10.11889/j.0253-3219.2025.hjs.48.240171 Cite this Article

Haoran YUAN, Shijing HE, Tianyu WU, Nuo CHEN, Zhizhuo WANG, Zhengrong OUYANG, Fang LIU. Application of dynamic vibration absorber on mirror angular vibration suppression[J]. NUCLEAR TECHNIQUES, 2025, 48(3): 030201 Copy Citation Text

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References

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[2] Decking W, Abeghyan S, Abramian P et al. A MHz-repetition-rate hard X-ray free-electron laser driven by a superconducting linear accelerator[J]. Nature Photonics, 14, 391-397(2020).

[3] Bai Y, Gong X, Lu Q et al. Active vibration control method of double crystal monochromator of P2 protein crystallography beam line at SSRF[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 1019, 165906(2021).

[4] Geraldes R, Witvoet G, Vermeulen J. The mechatronic architecture and design of the High-Dynamic Double-Crystal Monochromator for Sirius light source[J]. Precision Engineering, 77, 110-126(2022).

[5] Geraldes R R, Moraes M A L, Witvoet G et al. Predictive modeling through dynamic error budgeting applied to the high-dynamic double-crystal monochromator for Sirius light source[J]. Precision Engineering, 77, 90-103(2022).

[6] LEI Zhidi, DENG Rongbing, DENG Haixiao et al. Experimental study on vibration displacement characteristics of superconducting cavity in cryogenic environment[J]. Nuclear Techniques, 47, 020101(2024).

[7] Liu F, Wu T, He S et al. Development of a mirror chamber for SHINE project[C](2023).

[8] Bondar V, Ehsan W, Beg M et al. Beam position feedback system supported by KARABO at European XFEL[C](2019).

[9] Schmidtchen S, Martin I, Trapp A et al. Vibration studies at European XFEL hard X-ray beamlines[C](2023).

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[11] Ormondroyd J, Den Hartog J P. The theory of the dynamic vibration absorber[J]. Transactions of the American Society of Mechanical Engineers, 49-50(1928).

[12] Hahnkamm E. Die dämpfung von fundamentschwingungen Bei veränderlicher erregerfrequenz[J]. Ingenieur-Archiv, 4, 192-201(1933).

[13] Brock J E. A note on the damped vibration absorber[J]. Journal of Applied Mechanics, 13, A284(1946).

[14] Al-Rawashdeh Y M, Al Janaideh M, Heertjes M. On characterization of a generic lithography machine in a multi-directional space[J]. Mechanism and Machine Theory, 170, 104638(2022).

[15] Simos N, Chu Y S, Broadbent A et al. Achieving vibration stability of the NSLS-II hard X-ray nanoprobe beamline[C], 148-151(2011).

[16] LIU Yaozong, YU Dianlong, ZHAO Honggang et al. Review of passive dynamic vibration absorbers[J]. Chinese Journal of Mechanical Engineering, 43, 14-21(2007).

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Haoran YUAN, Shijing HE, Tianyu WU, Nuo CHEN, Zhizhuo WANG, Zhengrong OUYANG, Fang LIU. Application of dynamic vibration absorber on mirror angular vibration suppression[J]. NUCLEAR TECHNIQUES, 2025, 48(3): 030201

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