Buyer Decision Criteria
- Beam aperture, gap, period, field target, and phase-error tolerance.
- Radiation environment and material choice.
- Magnet sorting, measurement, and documentation requirements.
- Carrier precision and tuning strategy.
Beam guidance and focusing magnetic assemblies.

Best fit for laboratories and beamline suppliers that require field precision, documentation, and material choices suitable for radiation or high-stability environments.
| Evaluation Metric | Typical Range | Buyer Relevance |
|---|---|---|
| Field Error | <0.1% | Prevents beam scattering. |
| Phase Error | Often specified in degrees by beamline program | Phase error affects coherent radiation output and acceptance testing. |
| Radiation Stability | Material-dependent; SmCo often preferred | Radiation exposure can reduce magnetic output if grade selection is wrong. |

Yes, using simulated annealing algorithms.
Yes. Prototype modules can be built with individual magnet measurement and carrier inspection when the beamline acceptance method is defined.
Radiation and temperature stability can make SmCo a better fit than high-Br NdFeB even when NdFeB has stronger room-temperature output.
Engineering RFQ Inbox
Include target torque/speed, quantity, and delivery location.
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