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We set the latest design evolutions for electromagnets and keep particle accelerators operational when needed most.
Conduct Experimentation Within Exact Tolerances and Avoid Downtime
Partnering with Buckley Systems prevents failed tests, wasted resources, and delayed milestones. Our precision manufacturing ensures electromagnets meet exact tolerances, keeping beams stable and experiments accurate over decades. And we evolve with the technology, providing superior technical support, warranties and guarantees to further mitigate potential risks.
Why Buckley Systems Is Better
Our superior manufacturing methods and materials directly impact the performance, reliability and long-term dependability of our electromagnets, protecting your investment and operations. When downtime is not an option, we ensure on-time delivery and a consistent supply of spare parts and aftersales service throughout the full product lifecycle.
We have a world-class team of physicists and engineers to understand your needs quickly and we’re comfortable building large and complex designs.
We apply a reductive design philosophy, resulting in fewer parts while meeting design intent.
Superior manufacturing methods and materials result in low failure rate, shrinking operational cost.
We offer vertical end-to-end in-house integration for efficient delivery.
Designing the Next Generation of Light
More than 2,400 researchers travel annually to Upton, New York to conduct experiments using synchrotron radiation to probe deeply into the very materials and structures of our world.
This light is generated by the National Synchrotron Light Source (NSLS II), one of the world’s most widely-used scientific facilities. When Brookhaven National Laboratory (BNL) started developing the next generation of this technology, Buckley Systems manufactured a production run of 150 storage ring electromagnets, working closely with BNL to maintain repeatability and tolerances and prove the efficacy of novel production techniques developed throughout the process.
All the 54 magnet dipoles had a sub 20 micron gap uniformity over their 2.6m length. Read More