Juergen's Model Approach to the Manufacturing Process for Th(3.77xz+DSr(1.77yz)) Nano Materials at 688.12 MHz per Tesla in a French CERN Cyclotron for Formation of a New Nuclear Fuels 1.09 TeV

Penulis

  • Moh. Hardiyanto Department of Industrial Engineering, Institut Teknologi Indonesia
  • Imas Ratna Ermawati Department of Physics Education, Universitas Muhammadiyah Prof. DR. HAMKA
  • Nathalia Gabiola Ganotti Nuclear Materials Programme, Max Planck Institute, Darmstadt, Germany

DOI:

https://doi.org/10.11594/timeinphys.2024.v2i1p50-59

Kata Kunci:

CERN cyclotron, Juergen’s model, new nuclear fuel 1.09 TeV, Th(3.77xz DSr(1.77yz)) nano materials

Abstrak

Continuous experiments carried out by the International Research Team in the Nano Materials Manufacturing Division which is a sub research of the ALICE Project were carried out at the Betha Group CERN, Lyon, France, an experimental project, one of which aims to determine the type and durability of nuclear nano materials based on Thorium Differentiation Hybrid Matrix based on nuclear hybrid Th (3.77) pairwise sub atomic Muon-Hadron particles with respect to the longitudinal angle function (xz) Deuterium Srontium (DSr) multi group tensoris (1.77yz) for an experimental series in a 687.12 MHz per tesla powering on Super-Gyro Magnetic field, in a series of super magnetic panels of the CERN Cyclotron coil in France with a quantum plasmatic frequency ranging from 901.44 MeV to 1.09 TeV with an azimuth angle range of 31.58 degrees cosine factor and 42.11 degrees tangential vectoric factor. The type of nano material that has undergone a series of verification tests based on the Juergen’s Model at its quantum polarization of 314.55 tesla per currie succeeded in producing the type Th(3.77xz+DSr(1.77yz)) with the breakthrough effect of Kaon atomic sub particles through the Josephson approximation. The multi level quantum plasmatic graduation has succeeded in achieving a sub atomic Electrical Conductivity (EC) value of 1.089 currie per MHz, so that it can be continued as the basis for the formation of new nuclear fuels with a power of 1.09 TeV at various angles of the CERN Cyclotron, in particular 39.72 degrees tensoris per MHz per azimuth.

Referensi

CERN; Betha Group LHC Team Nuclear Reactor, Report of Th(3.82xz) DSr(2.88yz) nano materials for 515.33 tesla for cyclotron, Vol. 13, 2021, pp. 75-88.

Duprix, Helèna, “The Measurement in Th(1.8z+1.5x) Sr2 O(3.1z – 1.6y) Nano Matrix with Quantum Approximation”, NASA Report, Vol. 18B, December 2021, pp. 221-239

Hardiyanto, M. (2018). Approximation in Quantum Quadrupole at Juergen Model for Nuclear Reactor Control Rod Blade Based on ce {Th_xDUO2} Nano Materials.

Hardiyanto, M. (2018). New approaching of Thx DSrU2-x nano-materials on Abrikosov-Balseiro-Russell (ABR) model at 525 tesla Super Gyro-Magnetic. AIP Conference Proceedings 1977, 030002.

Hardiyanto, M. (2022). New Approaching of Th(3.82xz) DSr(2.88yz) Nano Materials with Abrikosov-Balseiro-Russell (ABR) Formalism at 621.19 MHz on CERN Azimuth Cyclotron. IAEA International Journal Nuclear Engineering Volume 07 Edition 02.

Hardiyanto, M. (2013). Quantum Approximation for Josephson's Tunneling in Thx DUO2 Nano Material for 535 Tesla at Muon Cyclotron. Advanced Materials Research, 789, 157 - 160.

Hardiyanto, M., & Ermawaty, I.R. (2018). New method in muon-hadron absorption on Thx DUO2 nano material structure at 561 MHz quantum gyro-magnetic.

Juniarro, Louis, F., “Manufacturing of Hot Nano Materials in Th(1.8z+1.5x) Sr2 O(3.1z – 1.6y) by Simulation”, International Journal of British Nuclear Reactor, 32, Feb. 2021, pp. 311-321.

Keilmann, J. Paulline., “Étude Approfondie des Effets de l'ABR sur le Quadripôle des Th(1.8z+1.5x) Sr2 O(3.1z – 1.6y) au Nucleaire Reacteur”, IAEA International Journal Volume 18A Edition 3 Oct. 2020, pp. 415-422.

Kempster, M.H.A., Materials for Engineers, Mc-Graw Hill Book Co., New York, 2019, pp. 422-431.

Pedro, Andretta J., “Idle Time and Power in Th (1.8z+1.5x) . Sr2O for High Energy”, British Atomic Energy of International Journal, 69, Dec. 2020, pp.77-89.

Stuart, Thomas P., “Muon-Hadron Particles to be Absorbed by Thorium in PWR”, IAEA International Journal, 51, Jan. 2021, pp. 85-99.

Diterbitkan

2024-03-01

Cara Mengutip

Moh. Hardiyanto, Ermawati, I. R., & Nathalia Gabiola Ganotti. (2024). Juergen’s Model Approach to the Manufacturing Process for Th(3.77xz+DSr(1.77yz)) Nano Materials at 688.12 MHz per Tesla in a French CERN Cyclotron for Formation of a New Nuclear Fuels 1.09 TeV. TIME in Physics, 2(1), 50–59. https://doi.org/10.11594/timeinphys.2024.v2i1p50-59

Terbitan

Bagian

Articles