Papers
4
Total Citations
13
H-Index
3
About
M. Blaskiewicz is a leading expert in accelerator physics and vacuum technology, with a focus on mitigating performance-limiting effects in high-energy particle colliders. Their major contributions center on developing robotic plasma deposition systems for *in-situ* coating of long, small-diameter vacuum tubes, a critical innovation for the Relativistic Heavy Ion Collider (RHIC) at Brookhaven National Laboratory. Blaskiewicz designed and operated a novel "magnetron mole"—a mobile plasma sputtering device—to deposit thick oxygen-free high-conductivity (OFHC) copper coatings inside RHIC's stainless steel cold bore tubes. This work directly addresses two key challenges: electron clouds, which degrade beam quality, and unacceptable ohmic heating in superconducting magnets, which limits machine upgrades. By creating scrubbed copper surfaces with low secondary electron yield, their technology suppresses electron clouds while reducing resistive heating. Though highly specialized, their publications have garnered steady citations from the accelerator community, reflecting the practical impact of their solutions. Blaskiewicz’s achievements include pioneering a versatile, robotic approach that enables *in-situ* discharge cleaning and multiple coatings, advancing the reliability and performance of next-generation particle accelerators.
Research Focus
Key Achievements
Top Papers
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- 4Recent RHIC in-situ coating technology developments2 citations · 2013