| Payment Type: | L/C,T/T |
| Incoterm: | FOB,CIF,EXW |
| Min. Order: | 1 Set/Sets |
| Transportation: | Ocean,Land,Air |
Brand: bamasupercon
| Selling Units | : | Set/Sets |
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The CCT Type Superconducting Magnet is an advanced, high-performance superconducting magnet system designed for applications in particle accelerators, synchrotron light sources, and high-energy physics research. The CCT design (Cylindrical Coils in Toroidal Geometry) allows for the generation of powerful magnetic fields while maintaining excellent efficiency and stability, making it a key component in precise beam control, magnetic field generation, and particle deflection.
CCT superconducting magnets utilize superconducting materials that exhibit zero electrical resistance at cryogenic temperatures, which significantly reduces energy losses during operation. This feature is particularly advantageous in large-scale applications like high-energy accelerators, where consistent, high-field magnets are essential for steering and focusing particle beams.
In addition to their use in particle accelerators, CCT type superconducting magnets are also employed in magnetic resonance imaging (MRI), proton therapy, and magnetic levitation systems. Their ability to generate strong magnetic fields while consuming minimal power makes them suitable for applications requiring high efficiency and low operational costs.
The CCT design also enables better field homogeneity and more precise control of magnetic fields, essential for experiments that require fine-tuned field conditions. With their robust performance in extreme environments, CCT type superconducting magnets play a critical role in advancing research and applications in physics, medical technologies, and energy systems.
Magnetic field gradient: 25T/M
Operating current: 650A
Inner/outer radius of coil (mm): 95.1/108.1
Total length of coil (mm): 496
Effective length of coil (mm): 400
Develop two sets of superconducting quadrupole magnet systems (SCO) and plan to adopt the CantedCosine Theta (CCT) scheme. The operating current will be increased from 500A to 650A, and the magnetic field gradient will be increased from 18 T/m to 25 T/m.
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