We present a new powerful liquid hydrogen target developed for the precise study of parity violating electron scattering on hydrogen and deuterium. This target has been designed to have minimal target density fluctuations under the heat load of a 20$\mu$A CW 854.3 MeV electron beam without rastering the electron beam. The target cell has a wide aperture for scattered electrons and is axially symmetric around the beam axis. The construction is optimized to intensify heat exchange by a transverse turbulent mixing in the hydrogen stream, which is directed along the electron beam. The target is constructed as a closed loop circulating system cooled by a helium refrigerator. It is operated by a tangential mechanical pump with an optional natural convection mode. The cooling system supports up to 250 watts of the beam heating removal. Deeply subcooled liquid hydrogen is used for keeping the in-beam temperature below the boiling point. The target density fluctuations are found to be at the level 10$^{-3}$ at a beam current of 20 $\mu$A.
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机译:我们提出了一种新的强大的液态氢靶材,用于精确研究违反氢和氘上电子散射的奇偶性。该靶被设计为在20 \ A CW 854.3 MeV电子束的热负荷下具有最小的靶密度波动,而不会光栅化电子束。靶细胞具有用于散射电子的宽孔径,并且围绕电子束轴轴向对称。通过沿电子束定向的氢气流中的横向湍流混合,优化了结构以增强热交换。该靶被构造成由氦制冷机冷却的闭环循环系统。它由带有可选自然对流模式的切向机械泵驱动。冷却系统支持高达250瓦的光束加热去除。深度过冷的液态氢用于使射束内温度保持在沸点以下。发现在束电流为20μA时,目标密度波动在水平10μs-3处。
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