Hui Chen, D. T. Woods, N. Lemos, M. Rosen, O. Landen, J. Milovich, M. B. Schneider, C. Trosseille, J. Delora-Ellefson, M. Hardy, N. Hash, D. Hinkel, J. Holder, N. Izumi, N. Masters, W. Montgomery, J. D. Moody, K. Newman, S. Rogers, J. S. Ross, V. Smalyuk, C. Weber, T. Zobrist
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引用次数: 0
摘要
在国家点火装置(NIF)的圆柱形光室中,外锥体(相对于光室壁表面的入射角为 50° 和 44°)激光束在光室壁上的任何镜面反射("闪烁")都会照射到光室的两极。如果在激光脉冲的拾取期间(早期)闪烁功率足够大,则可能会在胶囊表面产生高模扰动,这些扰动会在内爆期间增长。为了量化外光束拾取期间胶囊上的熠射功率,我们在 NIF 上进行了专门的实验,使用平面见证箔片作为半红外目标中胶囊的替代物。我们发现,测得的闪烁功率与使用 f = 0.15 的额定电子传导通量限制器进行的模拟结果大致相当,而比使用 f = 0.03 的壁预测值低一个数量级以上。根据我们目前的理解,我们得出结论:外束的闪烁在太空舱驱动不对称中的作用微乎其微。
Measurement of early time outer laser beam reflection inside a cylindrical hohlraum at the National Ignition Facility
In a National Ignition Facility (NIF) cylindrical hohlraum, any specular reflection (“glint”) off the wall from the outer cone (incident angle of 50° and 44° relative to the surface of the wall) laser beam will irradiate the capsule poles. If the glint power is sufficiently large during the picket (early time) of the laser pulse, it may seed high-mode perturbations on the capsule surface that can grow during the implosion. To quantify the glint power on the capsule during the picket by the outer beams, we performed dedicated experiments on NIF using a flat witness foil as a surrogate for the capsule in a half-hohlraum target. We found that the measured glint power is approximately comparable to simulations using a nominal electron conduction flux limiter of f = 0.15, and over an order of magnitude lower than that predicted using f = 0.03 in the wall. Based on our current understanding, we conclude that the glint from the outer beams plays an insignificant role in capsule drive asymmetry.
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