Quench back in thin superconducting solenoid magnets

High energy physics experiments on the latest generation colliding beam machines require large superconducting solenoid magnets. The Lawrence Berkeley Laboratory is developing a new generation of high current density (~ 109 A m -2) superconducting solenoid magnets which are thin from a radiation sta

This report demonstrates the role of quench back in the quench protection of high current density superconducting solenoid magnets with well-coupled shorted secondary circuits. The phenomenon of "quench back" can be used to greatly reduce the size of an external quench protection resistor or even to

Development towards ultra-thin superconducting solenoid magnets for high energy particle detector has been carried out by focusing on aluminum stabilized superconductor mechanically reinforced while keeping electrical resistivity as low as possible. It has been realized by using combined technologie

Professional software is presented for superconducting quench simulation, applicable to magnets with a single or multiple coils, with or without iron, operating in either the persistent mode or from external power. Drift, dump and charge simulations are also possible. The method assumes that a quenc