Measurement of the energy loss in superconducting magnets

A technique for measuring ac losses in superconducting magnets is described. Two signals, a compensated voltage integral across the magnet and a magnet current differential, are multiplied in a Hall probe multiplier. The result is integrated and digitally displayed. The loss per cycle in a range of

Losses and magnetization curves of superconducting magnets were measured by recording digitized current and voltage values followed by numerical integration of the instantaneous power. Errors arising from the limited precision and resolution of the voltmeter as well as those introduced by numerical

This technique is based on an XY display of the hysteresis loop of a magnet," the hystere ~ sis loss is proportional to the loop area. It is shown that the shape and area of the loop are simply related to the short sample properties of the superconductor, Extraneoos effects in a magnet can sometimes

In a multicoil adiabatic superconducting magnet composed of nested solenoids, each shunted with a resistor, an initial quench in one solenoid can induce quenches in the other solenoids even when they are thermally isolated. The present work investigates induced quenching in such magnets. Specificall

For the multipole field measurement in superconducting magnets for an accelerator application, e practical method was successfully introduced. The method uses a slow rotating coil assembly with an integator and a shaft encoder connected to a computer system. The accuracy and the quickness of the mea

Wilson's method, which is commonly used for magnetization and loss measurement of superconducting magnets, has been thoroughly analysed with regardto its use with current pulses lasting ~ 1 s, The factors substantially affecting the error of loss measurement have been revealed and ways of depressing