Gold Foil(金箔)研究综述
Gold Foil 金箔 - The excavated bronzes were manufactured using a casting or hammering process, and a bronze belt was gilded with gold foil. [1] The simulation and experiment results show that the contribution of the gold foil to the SEU effect of low energy protons or C+ ions was not obvious. [2] METHODS Enriched 64 Ni targets were created by electroplating on gold foil. [3] The results of measuring the thicknesses of lead and gold foils placed behind a shield by the X-ray absorption spectroscopy method and with a micrometer gauge are compared. [4] We used gold foils to obtain this information in positron emission tomography (PET) cyclotron facilities. [5] The soft actuator structure consists of a layer of ionic liquid polymer gel sandwiched between two layers of activated carbon capped with gold foil. [6] Our main focus here is on the production of free-standing, thin foil targets, such as diamond-like-carbon foils, carbon nanotube foams (CNFs), plastic, and gold foils. [7] In this study, we evaluate the spatial distribution of thermal and epithermal neutron flux on the floor level of the LHD torus hall by measuring the neutron activation of gold foils. [8] Materials and methods Neutron and photon activation techniques were applied using gold foils. [9]出土的青铜器采用铸造或锤击工艺制造,青铜带上镀金。 [1] 模拟和实验结果表明,金箔对低能质子或C+离子的SEU效应的贡献不明显。 [2] 方法 通过在金箔上电镀产生富集的 64 Ni 靶材。 [3] 比较了通过 X 射线吸收光谱法和千分尺测量放置在屏蔽后面的铅和金箔的厚度的结果。 [4] 我们使用金箔在正电子发射断层扫描 (PET) 回旋加速器设施中获取这些信息。 [5] 软致动器结构由一层离子液体聚合物凝胶组成,夹在两层覆盖着金箔的活性炭之间。 [6] 我们在这里的主要重点是生产独立的薄箔靶材,例如类金刚石碳箔、碳纳米管泡沫 (CNF)、塑料和金箔。 [7] 在这项研究中,我们通过测量金箔的中子活化来评估 LHD 圆环大厅地板上的热和超热中子通量的空间分布。 [8] 材料和方法 使用金箔应用中子和光子激活技术。 [9]
Thin Gold Foil 薄金箔
Thin gold foil and tungsten wire targets were irradiated at peak laser intensities varying between 1018 and 1021 W/cm2, with laser pulse energies >100 J. [1] The 16 layer aperture contains an array of 87 openings, manufactured by scribing 100 profiles along 20-cm lengths of thin gold foils. [2] In the year 1911, Ernest Rutherford demonstrated that when alpha particles are scattered on a thin gold foil that the atom is composed of mostly empty space with a dense core at its center which is called the nucleus. [3]以 1018 至 1021 W/cm2 的峰值激光强度照射薄金箔和钨丝靶材,激光脉冲能量 >100 J。 [1] 16 层孔径包含 87 个开口阵列,通过沿 20 厘米长的薄金箔刻划 100 个轮廓制成。 [2] 1911 年,欧内斯特·卢瑟福证明,当 α 粒子散布在薄金箔上时,原子大部分由空的空间组成,其中心有一个致密的核心,称为原子核。 [3]
Covered Gold Foil 包覆金箔
Moreover, the activation measurement of neutron field parameters using the dosimetry foils was performed, and the reaction rates in the vertical experimental channel were determined utilizing the bare and cadmium covered gold foils. [1] 6 code and experimentally using bare and cadmium-covered gold foils irradiation and bare triple (AuZr) monitor methods. [2]此外,使用剂量测定箔进行了中子场参数的活化测量,并利用裸和镉覆盖的金箔确定了垂直实验通道中的反应速率。 [1] 6 代码和实验使用裸和镉覆盖的金箔辐照和裸三重 (AuZr) 监测方法。 [2]
gold foil activation 金箔活化
To estimate the beam losses and activation in the J-PARC main ring (MR) tunnel, thermal neutron distribution was measured using gold foil activation detectors with the Cd difference method. [1] To characterize the neutron beam, gold foil activation measurements were made to determine an average neutron flux and flux profile. [2] These were gold foil activation, thermoluminescent dosimeters (TLDs), and CR-39. [3] The thermal neutron flux distribution formed in the KEK electron/positron injector linac (KEK-linac) tunnel by the positron production beam operation was measured using a gold foil activation technique. [4]为了估计 J-PARC 主环 (MR) 隧道中的束流损失和激活,使用具有 Cd 差分法的金箔激活探测器测量热中子分布。 [1] 为了表征中子束,进行金箔活化测量以确定平均中子通量和通量分布。 [2] 这些是金箔活化、热致发光剂量计 (TLD) 和 CR-39。 [3] 使用金箔活化技术测量由正电子产生束操作在 KEK 电子/正电子注入器直线加速器 (KEK-linac) 隧道中形成的热中子通量分布。 [4]
gold foil figure 金箔图
The article discusses Scandinavian gold foil figures of the Vendel Period (c. [1] The iconography of numerous tiny gold foil figures found in Scandinavia provide a unique glimpse into mostly 6th and 7th century society and cult. [2] In Back Danielsson’s piece on gold foil figures from Scandanavia, she explores how these objects are an ‘entanglement of material practices’ that are continuously in the process of ‘becoming’. [3]这篇文章讨论了 Vendel 时期的斯堪的纳维亚金箔人物(c. [1] 在斯堪的纳维亚半岛发现的众多微小金箔人物的肖像画提供了对大部分 6 世纪和 7 世纪社会和邪教的独特一瞥。 [2] 在 Back Danielsson 关于来自斯堪的纳维亚半岛的金箔人物的作品中,她探讨了这些物体如何是“物质实践的纠缠”,并且不断地处于“生成”的过程中。 [3]