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A novel hohlraum with ultrathin depleted-uranium-nitride coating layer for low hard x-ray emission and high radiation temperature

An ultra-thin layer of uranium nitrides (UN) has been coated on the inner surface of the depleted uranium hohlraum (DUH), which has been proved by our experiment can prevent the oxidization of Uranium (U) effectively. Comparative experiments between the novel depleted uranium hohlraum and pure golden (Au) hohlraum are implemented on Shenguang III prototype laser facility. Under the laser intensity of 6*10^14 W/cm2, we observe that, the hard x-ray (> 1.8 keV) fraction of this uranium hohlraum decreases by 61% and the peak intensity of total x-ray flux (0.1 keV ~ 5.0 keV) increases by 5%. Radiation hydrodynamic code LARED is used to interpret the above observations. Our result for the first time indicates the advantage of the UN-coated DUH in generating the uniform x-ray field with a quasi Planckian spectrum and thus has important implications in optimizing the ignition hohlraum design.

preprint2014arXivOpen access
Liang GuoYongkun DingPeifeng XingSanwei LiTaimin YiLongyu KuangZhichao LiRenguo LiZheqing WuLongfei JingWenhai ZhangXiayu ZhanDong YangBobin JiangJiamin YangShenye LiuShaoen JiangYongsheng LiJie LiuWenyi HuoKe Lan
physics.plasm-phphysics.ins-det
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Open access21 authors2 topics
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Liang GuoYongkun DingPeifeng XingSanwei LiTaimin YiLongyu KuangZhichao LiRenguo LiZheqing WuLongfei JingWenhai ZhangXiayu ZhanDong YangBobin JiangJiamin YangShenye LiuShaoen JiangYongsheng LiJie LiuWenyi HuoKe Lan

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