EXPERIMENTAL CHARACTERIZATION OF AN OVERDENSE PLASMA IN A COMPACT ION SOURCE

Agatino Musumarra; Carmen Altana; Claudia Caliri; David Mascali; Davide Lanaia; Francesco Paolo Romano; Giuseppe Castro; Giuseppe Torrisi; Lorenzo Neri; Luigi Celona; Nadia Gambino; Rosalba Miracoli; Rossella Di Giugno; Santo Gammino

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EXPERIMENTAL CHARACTERIZATION OF AN OVERDENSE PLASMA IN A COMPACT ION SOURCE

机译：紧凑离子源中过饱和等离子体的实验表征

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Electron Cyclotron Resonance Ion Sources (ECRIS) are compact plasma-based machines able to feed particle accelerators with high intensity beams of multi-charged ions. ECRIS plasmas are density-limited, since they are sustained by E.M. wave propagation up to a cut-off density value. In the past, the only way to improve ECRIS performance was to increase the microwave frequency and the magnetic field strength to satisfy the ECR condition. A different plasma heating mechanism is being applied at INFN-LNS. It is based on Electron Bernstein Waves (EBW), i.e., electrostatic waves which do not suffer any density cut-off. Highlights concerning preliminary signatures of EBW formation and subsequent absorption are given here.

机译：电子回旋共振离子源（ECRIS）是紧凑的基于等离子体的机器，能够为粒子加速器提供高强度的多电荷离子束。 ECRIS等离子体受到密度的限制，因为它们通过E.M.波传播维持到截止的密度值。过去，提高ECRIS性能的唯一方法是增加微波频率和磁场强度以满足ECR条件。 INFN-LNS采用了不同的等离子体加热机制。它基于电子伯恩斯坦波（EBW），即不受任何密度限制的静电波。此处重点介绍了EBW形成的初步特征以及随后的吸收。

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《Acta polytechnica》 |2015年第3期|共页
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Agatino Musumarra; Carmen Altana; Claudia Caliri; David Mascali; Davide Lanaia; Francesco Paolo Romano; Giuseppe Castro; Giuseppe Torrisi; Lorenzo Neri; Luigi Celona; Nadia Gambino; Rosalba Miracoli; Rossella Di Giugno; Santo Gammino;
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1. Overdense plasma generation in a compact ion source [J] . G Castro, D Mascali, S Gammino, Plasma Sources Science & Technology . 2017,第5期

机译：紧凑离子源中的过阵等离子体生成
2. Experimental study of laser penetration in overdense plasmas at relativistic intensities. I: Hole boring through preformed plasmas layers [J] . Fuchs J., Amiranoff F., Baton SD., Physics of plasmas . 1999,第6期

机译：相对论强度下超密度等离子体中激光穿透的实验研究。 I：钻孔穿过预先形成的等离子层
3. Production and heating of overdense plasmas by mode-converted electron Bernstein waves at very low toroidal field in the Compact Helical System [J] . Ikeda R, Toi K, Takeuchi M, Physics of plasmas . 2008,第7期

机译：紧凑螺旋系统中超模态场的模式转换电子伯恩斯坦波产生和加热过稠等离子体
4. Experimental characterization of a compact microwave plasma sourceemploying three different coupling geometries [C] . Khan A., Asmussen J. International symposium on System synthesis . -1

机译：紧凑型微波等离子体源的实验表征采用三种不同的耦合几何
5. Experimental characterization of a compact MPDR plasma source employing three different coupling geometries. [D] . Khan, Amir Halim. 1999

机译：采用三种不同耦合几何形状的紧凑型MPDR等离子体源的实验表征。
6. Optical coherence tomography (OCT) with 2 nm axial resolution using a compact laser plasma soft X-ray source [O] . Przemysław Wachulak, Andrzej Bartnik, Henryk Fiedorowicz -1

机译：使用紧凑型激光等离子体软X射线源的2 axialnm轴向分辨率的光学相干断层扫描（OCT）
7. EXPERIMENTAL CHARACTERIZATION OF AN OVERDENSE PLASMA IN A COMPACT ION SOURCE [O] . Castro Giuseppe, Mascali David, Romano Francesco Paolo, 2017

机译：紧凑离子源中过饱和等离子体的实验表征

EXPERIMENTAL CHARACTERIZATION OF AN OVERDENSE PLASMA IN A COMPACT ION SOURCE

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