Conveners
Fri-Mo-Po.07 - Accelerator Magnets III
- Charles Simon (LNCMI CNRS)
- Yuta Ebara (Sumitomo Heavy Industries Ltd. & Tohoku University)
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Mr Pengcheng Huang (High Magnetic Field Laboratory, Hefei Institutes of Physical Science, Chinese Academy of Sciences)04/07/2025, 09:30Poster
The Quantum Materials Resonant Scattering Experimental Station (QMRSES) is a key component of the Hefei Advanced Light Facility (HALF) to investigate the quantum materials through the Resonant Elastic X-ray Scattering (REXS). The station assists researchers in investigating the electronic, spin, and orbital properties. The cryostat with the system is designed to provide various magnetic fields...
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Shenglong Wang04/07/2025, 09:30Poster
High intensity cyclotrons play a significant role in radionuclide production. Our institute has formulated a plan to design and build a 300 MeV proton cyclotron and has already initiated preliminary research. Among all the subsystems, the main magnet stands out as one of the most critical and challenging components.When compared with low beam current cyclotrons, the main magnet system of a...
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Zongtai Xie (SPIC Nucreation Technology Company LTD., State Power Investment Corporation (SPIC))04/07/2025, 09:30Poster
State Power Investment Corporation (SPIC) is leading a project that uses cyclotron for proton irradiate power chips. Compared to electrostatic accelerator, cyclotron have the advantage of lower cost and higher beam intensity. However, a disadvantage of cyclotron is that the extracted beam has relatively large energy dispersion. For horizontally placed power chips, the beam must be injected...
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Benjamin Szabo (FNAL)04/07/2025, 09:30Poster
The Proton Improvement Plan-II (PIP-II) is a vital upgrade to Fermilab's accelerator complex. The upgrade is designed to power the world’s most intense high-energy neutrino beam in future experiments. The magnet pulse repetition rate of the PIP-II injection system is being upgraded from 15 Hz to 20 Hz and requires a roughly 30% increase in the magnetic field of the new Orbital Bump (ORBUMP)...
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Harshita Singh04/07/2025, 09:30Poster
Normal conducting quadrupoles have been used to focus charged particle beams in synchrotrons, beam transfer lines, medical linacs, etc. for a long time. Optimization techniques based on analytical expressions combined with the use of a numerical field analysis tool exist in the literature for the design of an optimal pole tip shape. However, the initial shape and dimensions of the remaining...
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Bolei Jia (Shanghai Advanced Research Institute, Chinese Academy of Sciences)04/07/2025, 09:30Poster
An analytical magnet has been designed for the SV projiect at the Shanghai Advanced Research Institute, Chinese Academy of Sciences. According to the design parameters proposed by the Physics Department, we have confirmed the dimensions of the magnet and optimized the field quality. The simulation of the electronmagnetic field has been finished in OPERA 3D. In the paper, we give the...
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Dr Francoise Rondeaux (CEA Paris-Saclay)04/07/2025, 09:30Poster
The Research Racetrack Dipole Demonstrator (R2D2) is a short model magnet developed by CEA Paris-Saclay, in collaboration with CERN. The main goal is to demonstrate the feasibility of key technologies for future high field 16 T Nb3Sn magnets for particle colliders. Using a block-coil design, two different cable grades are wound in the same coil layer, in order to maximize the current density,...
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Igor Novitski04/07/2025, 09:30Poster
A 123 mm aperture Nb3Sn cos-theta (CT) dipole coil with stress management (SM) was developed at Fermilab to demonstrate and test the SM concept. Additive Manufacturing technology was used to produce the coil mandrel. Several changes were made to the SMCT coil design and technology based on the analysis of post-production and two cold tests of the first SMCT coil. This article describes the...
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