Abstract

The staged Z-pinch (SZP) is a magnetoinertial fusion scheme, where a high-Z gas liner implodes onto a deuterium gas target. An accurate measurement of the initial mass distribution, both in the liner and target, is crucial to achieve the fusion-relevant conditions. This paper presents the characterization of a double-valve injector for the SZP experiment, performed on a test stand with interferometric and visible emission diagnostics. The injector produces an annular liner gas profile that is peaked at R-L = 1.25 cm, has an average full width at half-maximum Delta r(L) = 0.50 cm, and a mass density rho L = 0.5-140 mu g/cm(3), which is adjusted by selecting the gas species between Ar and Kr, plenum pressure, and injection timing. The target gas density is centered on the axis, has a width Delta r(T) = 0.80 cm, and a density rho(T) = 0.3-30 mu g/cm(3). The molecular deuterium can be partially ionized and accelerated out of the injector with a velocity v(z) > 2 cm/mu s by a coaxial plasma gun built into the injector.