高压下氢化物磁矩测量中的磁滞环:对超导性的影响

IF 1.3 3区 物理与天体物理 Q4 PHYSICS, APPLIED
J.E. Hirsch
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引用次数: 0

摘要

对高压下氢化物材料磁矩的测量被认为证明了这些材料存在超导性(Drozdov 等人,2015 年;Minkov 等人,2021 年;Minkov 等人,2022 年;Minkov 等人,2023 年[4,6];Eremets 等人,2022 年)。然而,从小样中探测信号需要减去大量的背景贡献,而背景贡献的细节在很大程度上是未知的。在此,我们分析了报告中的测量结果,并指出,无论对背景信号做出何种假设,所产生的磁滞环都与超导现象的结论不符。我们认为,这也否定了参考文献中提出的结论,即外部磁场关闭后测量到的磁矩是超导电流产生的困磁通量的证据。Minkov 等人(2023 年)提出的结论。我们的结果意味着,尽管有多种说法,但迄今为止还没有磁性证据证明氢化物在压力下存在高温超导现象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hysteresis loops in measurements of the magnetic moment of hydrides under high pressure: Implications for superconductivity

Measurements of magnetic moments of hydride materials under high pressure have been claimed to prove the existence of superconductivity in these materials (Drozdov et al., 2015; Minkov et al., 2021; Minkov et al., 2022; Minkov et al., 2023; Eremets et al., 2022) . However, detection of the signal from the small sample requires subtraction of a large background contribution whose details are largely unknown. Here we analyze reported measurements and point out that the resulting hysteresis loops are incompatible with the conclusion that they result from superconductivity, independent of what assumptions are made about the background signal. We argue that this also invalidates the conclusion that the magnetic moment measured after the external magnetic field is turned off is evidence for trapped magnetic flux resulting from superconducting currents, as proposed in Minkov et al. (2023). Our results imply that to date no magnetic evidence for the existence of high temperature superconductivity in hydrides under pressure exists, despite multiple claims to the contrary.

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来源期刊
CiteScore
2.70
自引率
11.80%
发文量
102
审稿时长
66 days
期刊介绍: Physica C (Superconductivity and its Applications) publishes peer-reviewed papers on novel developments in the field of superconductivity. Topics include discovery of new superconducting materials and elucidation of their mechanisms, physics of vortex matter, enhancement of critical properties of superconductors, identification of novel properties and processing methods that improve their performance and promote new routes to applications of superconductivity. The main goal of the journal is to publish: 1. Papers that substantially increase the understanding of the fundamental aspects and mechanisms of superconductivity and vortex matter through theoretical and experimental methods. 2. Papers that report on novel physical properties and processing of materials that substantially enhance their critical performance. 3. Papers that promote new or improved routes to applications of superconductivity and/or superconducting materials, and proof-of-concept novel proto-type superconducting devices. The editors of the journal will select papers that are well written and based on thorough research that provide truly novel insights.
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