标题： 对《氢丰富高温超导体中的磁通量捕获》的作者更正，自然物理学期刊，19，1293 (2023)，arXiv:2206.14108 显示英文标题

标题： Comment on the Author Correction to "Magnetic flux trapping in hydrogen-rich high-temperature superconductors", Nat Phys. 19, 1293 (2023), arXiv:2206.14108

摘要： 在图~4c中，在arXiv:2206.14108和Nat Phys. 19, 1293 (2023) [1]标题为“磁通钉扎和热激活运动”的章节下，Minkov及其同事展示了硫化氢（H$_{3}$S）在高压下的磁矩随时间的变化，并认为他们在165 K、180 K和185 K观察到了磁通蠕变。磁通蠕变是一种在假设研究材料能够捕获磁通的情况下观察到的现象，因此，图~4c作为证据表明H$_{3}$S捕获磁通并且是一种高温超导体。 即使在最近发表的参考文献[1]的作者更正[2]中，这一主张仍然不变。 然而，参考文献[2]披露了他们用来收集磁矩随时间变化数据的实验协议。 在本文中，我们指出该协议不适用于高压下的H$_{3}$S，并提出了一个替代协议。 正确的协议表明参考文献[1,2]中的主张——即他们的磁矩随时间变化的数据是“磁通钉扎和热激活运动”的证据——是无效的。 显示英文摘要

摘要： In Fig. 4c, under the section titled "Pinning and thermally activated motion of vortices" in arXiv:2206.14108 and Nat Phys. 19, 1293 (2023) [1], Minkov and co-workers presented the time dependence of the magnetic moment of sulfur hydride (H$_{3}$S) under high pressure and argued that they had observed magnetic flux creep at 165 K, 180 K and 185 K. Flux creep is a phenomenon observed under the assumption that the material under study can trap magnetic flux, and thus, Fig. 4c serves as evidence that H$_{3}$S traps magnetic flux and is a high-temperature superconductor. The claim remains unchanged even in the recently published Author Correction [2] to Ref. [1]. However, Ref. [2] discloses an experimental protocol they used to collect the time-dependent magnetic moment data. In this Matters Arising, we point out that the protocol is not applicable to H$_{3}$S under high pressure and propose an alternative protocol. The correct protocol demonstrates that the claim in Refs. [1,2] -- that their time-dependent magnetic moment data serve as evidence of "pinning and thermally activated motion of vortices" -- is invalid.