The paper aims to do a study on the forced vibrations of the components inside the interaction chamber for the gamma ray beam from the ELI-NP Bucharest research facility. For this, the transmissibility of vibrations from the ground to the parts inside the interaction chamber is studied and, in particular, on the target support. The research is necessary because experiments with gamma rays focus on targets that can sometimes be very small and any deviation and uncontrolled movement of the target can lead to the failure of the experiment. Based on the results obtained, it is proposed to increase the rigidity of the target support in order to decrease the transmissibility of excitations ground at the target.

The White Book of ELI Nuclear Physics Bucharest-Magurele, Romania. Available online: http://www.eli-np.ro/whitebook.php

Robinson Research Institute, https://www.victoria.ac.nz/robinson/about/bill-robinson

Vlase, S., Itu, C., Marin, M., Luminta Scutaru, M., Sabou, F., Necula, R. (2024). Vibration analysis of the Gamma-Ray element in the ELI-NP interaction chamber (IC), Journal of Computational Applied Mechanics, 55(2),pp.275-288. doi:10.22059/ jcamech.2024.374576.1024.

Bratu, P ; Vlase, S ; Dragan, N.; Vasile, O.; Itu, C.; Nitu, C.M. ; Toderita, A. Modal Analysis of the Inertial Platform of the Laser ELI-NP Facility in Magurele-Bucharest. Romanian Journal of Acoustics and Vibration, 2022, 19 (2) , pp.112-120.

Itu, C; Bratu, P. ; Borza, P.; Vlase, S.; Lixandroiu, D. Design and Analysis of Inertial Platform Insulation of the ELI-NP Project of Laser and Gamma Beam Systems. Symmetry-Basel, 2020, 12 (12)

Habs, D.; Tajima, T.; Zamfir, V. Extreme Light Infrastructure–Nuclear Physics (ELI–NP): New Horizons forPhoton Physics in Europe.Nucl. Phys. News2011,21, 23–29.

Serafini, L. EuroGammaS proposal for the ELI-NP Gamma beam System. Technical Design Report, July. 2014. Technical Design Report.

Bihalowicz, J.S. The mini ELITPC: Reconstruction and identification of charged particles tracks during beam tests at IFIN-HH, 2017 IEEE Proceedings of International Young Scientists Forum on Applied Physics and Engineering (YSF) (IEEE, 2017), pp. 259 -262.

Cwiok, M. et al., A TPC detector for studying photo-nuclear reactions at astrophysical energies with gamma-ray beams at ELI-NP, Acta Phys. Pol., B 49(3), 509–514 (2018).

Matei,C.;Balabanski, D.; Filipescu, D.M.; Tesileanu, O. Photodisintegration reactions for nuclear astrophysics studies at ELI-NP, in Nuclear Physics in Astrophysics Conference (NPA VII), J. Phys.: Conf. Ser. 940, 012025 (2018).

Scutaru, M.L.; et al., New analytical method based on dynamic response of planar mechanical elastic systems‎. Boundary Value Problems, Vol.‏ 2020, Issue: ‏ 1, Article Number: 104.

Ionita, D.; Arghir, M. Consideration on the Lagrange Interpolation Method Applicable in Mechanical Engineering. Acta Technica Napocensis Series-Applied Mathematics, Mechanics and Engineering 2021, 64 (2) , pp.329-332

Negrean, I., New Formulations in Analytical Dynamics of Systems, Acta Technica Napocensis, Series: Applied Mathematics, Mechanics and Engineering, Vol. 60, Issue I, ISSN 1221-5872, pp. 49-56, 2017

Naeim, F.; Kelly, J.M., Design of Seismic Isolated Structures-From Theory to Practice, John Wiley & Sons,1999, ISBN:0-471-14921-7

Sladek, J.R.; Klinger,R.E. Effect of tune mass dampers of seismic response, J. Struct. Eng. ASCE109, 1983

Gerstmayr, J., Schöberl, J., A 3D Finite Element Method for Flexible Multibody Systems, Multibody System Dynamics, Volume 15, Number 4, 305–320, 2006

Thomson, W.T.; Dahleh, M.D., Theory of Vibration with Applications, Prentice Hall, New Jersey, 1998.

Timoshenko, S.P.; Woinowsky-Krieger, S. Theory of Plates and Shells, McGraw-Hill, New York, 1959.

Ibrahimbegović, A., Mamouri, S., Taylor, R.L., Chen, A.J., Finite Element Method in Dynamics of Flexible Multibody Systems, Multibody System Dynamics, Volume 4, Numbers 2–3, 195–223, 2000.

Jiang, M.; Rui, X.T.; Zhu, W.; Yang, F.F.; Zhang, Y.N., Optimal design of 6-DOF vibration isolation platform based on transfer matrix method for multibody systems. Acta Mechanica Sinica, DOI: 10.1007/s10409-020-01004-8, Early Access: OCT 2020

Liu, L.; Wang, B.L., Development of Stewart platforms for active vibration isolation and precision pointing. International Conference on Smart Materials and Nanotechnology in Engineering, PTS 1-3, Book Series: Proceedings of SPIE, 2020, Volume: 6423, Part: 1-3, Article Number: 642347, DOI: 10.1117/12.779866

Buzdugan, Gh.; Fetcu,L.; Rades, M. Mechanical Vibrations, Didactic and Pedagogical Publishing House, Bucharest, 1979

Vlase, S. A method of eliminating Lagrangian-multipliers from the equation of motion of interconnected mechanical systems, J. Appl. Mech. 54(1), 235–237, 1987.

Vlase, S.; Marin, M. ; Öchsner, A. Considerations of the transverse vibration of a mechanical system with two identical bars. Proceedings of the Institution of Mechanical Engineers Part L-Journal of Materials-Design and Applications, 2019, 233 (7) , pp.1318-1323.

Stanciu, M.D.; Vlase, S.; Marin, M. Vibration Analysis of a Guitar considered as a Symmetrical Mechanical System. Symmetry-Basel, 2019, 11 (6).

Scutaru, M.L.; Vlase, S.; Marin, M. Symmetrical Mechanical System Properties-Based Forced Vibration Analysis. Journal of Computational Applied Mechanics 2023, 54 (4) , pp.501-514.

Vlase, S.; Teodorescu, P.P.; Itu C.; Scutaru, M.L. Elasto-Dynamics of a Solid with a General "Rigid" Motion using FEM Model. Part II. Analysis of a Double Cardan Joint. Romanian Journal of Physics, 2013, 58 (7-8) , pp.882-892.

Thorby,D. Structural Dynamics and Vibration in Practice, An Engineer Handbook, 2008.

Irvine, T. An Introduction to Shock and Vibration Response Spectra, 2019.

Irvine, T. Effective modal mass & modal participation factors, 2015.

Sun,W.; Liu, Y.; Li, H.; Pan, D. Determination of the response distributions of cantilever beam under sinusoidal base excitation, Journal of Physics: Conference Series 448, 2013.

Han, P. ; Wang, T.; Wang, DH, Modeling and Control of a Stewart Platform Based Six-Axis Hybrid Vibration Isolation System. World Congress on Intelligent Control and Automation, 2008, Vols. 1-23, pp. 1613-1619, DOI: 10.1109/WCICA.2008.459316.