Performance of superconducting storage ring cavities at 1500 MHz
Abstract: Application of superconducting cavities in high energy storage rings offers the advantage of considerable power savings over normal conducting structures. The fabrication,
Superconducting RF for storage rings, ERLs, and linac-based
energy with the aid of radio-frequency accelerating cavities; a storage ring, as the name suggests, keeps particles stored at a constant energy, and radio-frequency cavities are only used to
Conceptual design of the Hybrid Ring with superconducting linac
The Hybrid Ring is a variable light source with both versatility and advanced features that consists of a storage ring and a superconducting linac (Fig. 1). It is operated with the coexistence of the
Preliminary design of a new superconducting harmonic
The HALF storage ring employs mod-ified hybrid 6BA lattice as the baseline lattice to generate a beam with 85 pm·rad emittance, 350 mA current and 2.2 GeV energy [2]. The storage ring
Design of a Passive Superconducting Harmonic Cavity for
lifetime in storage ring, a passive superconducting 3 rd-har-monic cavity (super-3HC) is employed to lengthen the beam bunches. Then the HALF storage ring has double RF systems: the main
How Superconducting Magnetic Energy Storage
Another emerging technology, Superconducting Magnetic Energy Storage (SMES), shows promise in advancing energy storage. SMES could revolutionize how we transfer and store electrical energy. This article