The potential of high-temperature superconducting (HTS) magnets for use in
naval mine countermeasure (MCM) systems is being investigated. Parametric s
tudies were performed to determine an optimal system that fits within a 560
-mm diameter by 3-m long envelope, and is capable of generating a dipole mo
ment of 300 kAm(2). A demonstration model magnet, of dipole moment 15 kAm(2
), was layer-wound on a 457-mm mandrel. This is one of the largest layer-wo
und HTS solenoid magnets constructed to date. The magnet is conduction-cool
ed with a two-stage cryocooler. It has low AC loss and can be ramped up to
full current (381 A) in 1 second. The magnet has been tested to 400 A DC cu
rrent with minimal voltage. The design and construction of the magnet will
be presented.