A pulsed dipole magnet made from a hollow composite superconductor with a circulatory refrigeration system

Abstract When a superconducting dipole magnetic field is limited by a value of about 2.5 T using a ‘window frame’ type dipole, the design of such a magnet can be essentially simplified, and the superconducting winding volume can be decreased. If the winding is made of hollow composite superconductor, the cryostat construction is simplified and it is easy to handle with superconducting magnets. In order to estimate the prospects of using ‘window frame’ type dipole magnets with a circulatory refrigeration system for the Nuclotron Accelerator project, a dipole magnet with a length of about 0.4 m, a 5.5 cm aperture and a magnetic field of up to 2.5 T has been constructed and tested at the High Energy Laboratory, JINR. The superconducting cable of the magnet consists of a cupro-nickel pipe with an outer diameter of 5 mm and a wall thickness of 0.5 mm on which multifilament superconductors are cabled. The magnet construction with a two-phase helium circulating refrigeration system is described. The dependences are presented of the critical current degradation and of ac losses on the magnetic field inhomogeneity and hydraulic resistance.