Jump to content

Midwestern Universities Research Association

From Wikipedia, the free encyclopedia

The Midwestern Universities Research Association (MURA) was a collaboration between 15 universities with the goal of designing and building a particle accelerator for the Midwestern United States. It existed between 1953–1967, but could not achieve its goal in this time and lost funding. It was thought that President John F. Kennedy would have supported the MURA machine, while one of President Lyndon B. Johnson's first actions was the shutdown of the MURA machine and laboratory.[1]

layout of MURA FFAG

In its formative years, Donald Kerst was the director of MURA.[1] At this institution, Keith Symon invented the FFAG accelerator, independently to Tihiro Ohkawa, which combines several concepts of cyclotrons and synchrotrons. FFAG concepts were extensively developed in MURA. The proposed MURA accelerators were scaling FFAG synchrotrons, meaning that orbits of any momentum are photographic enlargements of those of any other momentum.

The concept of FFAG acceleration was revived in the early 1980s,[2] and gained interest up to the present day, see e.g. EMMA (accelerator).

References

[edit]
  1. ^ a b Jones, L.; Mills, F.; Sessler, A.; Symon, K.; Young, D. (2010). Innovation was not enough: a history of the Midwestern Universities Research Association (MURA). World Scientific. Bibcode:2010ine..book.....J. ISBN 9789812832832.
  2. ^ Martin, S.; Wüstefeld, G. (ed.) (1983). Seminar on Fixed Field Alternating Gradient accelerators (FFAG), held at Jülich Research Centre. informal collection of contributed talks. KFA report SNQ 2 MZ / BS 001

Further reading

[edit]
this paper was published posthumously.
A book by MURA veterans that was designed to augment Cole's posthumous manuscript.
deals with politics around MURA, particularly the battle over funding higher energy machines being studied at Berkeley and at Brookhaven (New York) and funding MURA, a machine that would produce the same energy as Argonne's Zero Gradient Synchrotron but at 100 fold the intensity.