电荷量子化对非中性等离子体平行温度诊断的限制

arXiv - PHYS - Plasma Physics Pub Date : 2024-09-17 DOI:arxiv-2409.11610

Adrianne Zhong, Joel Fajans, Jonathan S. Wurtele

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引用次数: 0

摘要

我们开发了一种新算法来估算彭宁-马氏陷阱中的非中性等离子体的温度。该算法分析了通过缓慢降低限制等离子体一端的电压并收集逸出电荷而获得的数据，是一种基于贝克[1990]提出的逸出协议物理模型的最大似然估计法。值得注意的是，我们的算法可用于单计数数据，从而改进了逸出电子数较少时的拟合。这对低温等离子体（如反氢阱中使用的等离子体）非常重要。我们对算法进行了蒙特卡洛模拟，并评估了其对内在射出噪声和外部噪声的鲁棒性。大约需要 100 个粒子计数才能达到 +/-10% 的精度 - 这为长度为 1 厘米的等离子体提供了可测量的约 3 K 等离子体温度的下限。

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Limitations from charge quantization on the parallel temperature diagnostic of nonneutral plasmas

We develop a new algorithm to estimate the temperature of a nonneutral plasma in a Penning-Malmberg trap. The algorithm analyzes data obtained by slowly lowering a voltage that confines one end of the plasma and collecting escaping charges, and is a maximum likelihood estimator based on a physically-motivated model of the escape protocol presented in Beck [1990]. Significantly, our algorithm may be used on single-count data, allowing for improved fits with low numbers of escaping electrons. This is important for low-temperature plasmas such as those used in antihydrogen trapping. We perform a Monte Carlo simulation of our algorithm, and assess its robustness to intrinsic shot noise and external noise. Approximately 100 particle counts are needed for an accuracy of +/-10% -- this provides a lower bound for measurable plasma temperatures of approximately 3 K for plasmas of length 1 cm.

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arXiv - PHYS - Plasma Physics

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