Record Magnetic Field Generation by Laser-Driven Capacitor-Coil Targets

Abstract: Magnetic fields generated by capacitor-coil targets driven by intense short-pulse lasers have been characterized using ultrafast proton radiography. A 1-kJ, 15-ps laser at a center wavelength of 1053 nm irradiated the back plate of the capacitor with an intensity of $\sim$8.3 $\times$ 10$^{18}$ W$/$cm$^{2}$, creating ultra large currents in the connecting coils. High-quality proton data obtained in the axial probing geometry show definitive signatures of magnetic field generation allowing precision measurement of the field distribution and strength. The data show a peak coil current of 150 $\pm$ 20 kA producing 250 $\pm$ 30 Tesla magnetic fields at the coil center. This sets a new record for magnetic field generation by the short-pulse-powered capacitor-coil targets.