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机译:勘误和附录:从大规模分子动力学模拟的血浆面向钨中的氦气通量对泡沫生长和表面形态的影响(2019年核心融合59 066035)
Department of Chemical Engineering University of Missouri Columbia MO 65211 United States of America Nuclear Engineering Program University of Missouri Columbia MO 65211 United States of America;
Department of Chemical Engineering University of Missouri Columbia MO 65211 United States of America;
Department of Chemical Engineering University of Missouri Columbia MO 65211 United States of America;
Scientific Computing and Imaging Institute University of Utah Salt Lake City UT 84122 United States of America;
Data Science at Scale Team Los Alamos National Laboratory Los Alamos NM 87545 United States of America;
Department of Chemical Engineering University of Massachusetts Amherst MA 01003 United States of America;
Department of Nuclear Engineering University of Tennessee Knoxville TN 37996 United States of America Fusion and Materials for Nuclear Systems Division Oak Ridge National Laboratory Oak Ridge TN 37831 United States of America;
tungsten; helium; molecular dynamics; fuzz; bubble;
机译:大规模分子动力学模拟中的氦通量对面向等离子体的钨中气泡生长和表面形态的影响
机译:从大规模分子动力学模拟的面向血浆钨中血泡生长和表面形态的氦气通量影响
机译:勘误:等离子体暴露的钨表面下氦气气泡破裂的连续尺度模型(2018 Nucl。Fusion 58 126034)
机译:聚变反应堆第一壁装甲和分流板的高温下氦离子注入对钨表面形貌的影响。
机译:勘误:浆液暴露钨表面下氦气泡破裂的连续模型建模(2018 Nucl。融合58 126034)