Conveners
Fri-Mo-Or4 - Magnets for Electron Colliders
- Lance Cooley (NHMFL/FSU)
- Karie Badgley (Fermilab)
-
Brett Parker (Brookhaven National Laboratory (US))04/07/2025, 11:15Contributed Oral
For the Electron Ion Collider (EIC) at BNL, the interaction region (IR) magnet closest to the EIC experiment on the forward (outgoing hadron and incoming electron) side, denoted B0PF-Q0EF, must satisfy many conflicting machine detector interface (MDI) requirements. First it must provide sufficient transverse field in a large warm bore to provide spectrometer functionality for outgoing...
Go to contribution page -
Michael Anerella04/07/2025, 11:30Contributed Oral
Brookhaven National Laboratory (BNL) was chosen to host the international Electron-Ion Collider (EIC), which will collide high energy and highly polarized hadron and electron beams with a center of mass energy up to 140 GeV. The Interaction Region (IR) requires several large aperture, relatively high field superconducting dipole and quadrupole magnets, some of which are very closely spaced....
Go to contribution page -
Mr Christopher Runyan (BNL)04/07/2025, 11:45Contributed Oral
Brookhaven National Laboratory (BNL) was chosen to host the international Electron-Ion Collider (EIC), which will collide high energy and highly polarized hadron and electron beams with a center of mass energy up to 140 GeV. The Interaction Region (IR) requires several large aperture, relatively high field superconducting dipole and quadrupole magnets, some of which are very closely spaced....
Go to contribution page -
Mithlesh Kumar04/07/2025, 12:00Contributed Oral
Brookhaven National Laboratory (BNL) has a unique Direct Wind (DW) technology which is used
Go to contribution page
to fabricate complex multi-functional superconducting magnets. Some of these magnets have been
integrated in currently operational accelerator complexes, such as, HERA, BEPC, JPARC, and
RHIC. These multi-layer magnets do not require custom production tooling necessary for cabled
magnets. The...