How to confirm the polarity of the DTQ in the J-PARC DTL

Kosaka, Satoshi*; Arai, Sora; Nemoto, Yasuo*; Kitamura, Ryo   

The negative hydrogen (H) ion beam is accelerated with a peak current of 50 mA in the J-PARC linac. The linac consists of the H- ion source and four kinds of accelerating cavities; a radio-frequency quadrupole linac (RFQ), a drift-tube linac (DTL), a separated-DTL (SDTL), and an annular-ring coupled structure linac (ACS). The accelerating electric field exists between the drift-tubes in the tank of the DTL. The quadrupole magnet for the beam focusing (DTQ) is installed in the drift-tube. The DTQ at J-PARC employs electromagnets to generate the magnetic field. It is important to set correctly the polarity of the magnetic field of the DTQ for tuning the beam. In this paper, we report the method of confirming the magnetic field polarity of DTQ, that is, the current wiring polarity by measuring DC current using a clamp meter on the power supply side and visually confirming the cable wiring connection on the electromagnet side.