Contents
2022
Volume: 7 Issue 4
8 Article(s)

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High Pressure Physics and Materials Science
Incompatibility of published ac magnetic susceptibility of a room temperature superconductor with measured raw data
J. E. Hirsch, and D. van der Marel
Matter and Radiation at Extremes
  • Publication Date: Jan. 01, 1900
  • Vol. 7, Issue 4, 048401 (2022)
Bonding-unsaturation-dependent superconductivity in P-rich sulfides
Xing Li, Xiaohua Zhang, Yong Liu, and Guochun Yang
The covalent frameworks found in certain compounds, such as the S–H skeleton in H3S and the H cage in LaH10, play an essential role in their superconductivity. These compounds have the feature of bonding unsaturation (a deficiency of electrons in their covalent bonding) in common. Developing an understanding of the rel
Matter and Radiation at Extremes
  • Publication Date: Jan. 01, 1900
  • Vol. 7, Issue 4, 048402 (2022)
Fundamental Physics at Extreme Light
Transition of the generation mechanism of high-order harmonics in an extended neon system
Jingli Gao, Difa Ye, Jie Liu, and Wei Kang
Matter and Radiation at Extremes
  • Publication Date: Jan. 01, 1900
  • Vol. 7, Issue 4, 044403 (2022)
Inertial Confinement Fusion Physics
Nonlocal thermal transport in magnetized plasma along different directions
Hanzhi Zhao, Zhengming Sheng, and Suming Weng
Matter and Radiation at Extremes
  • Publication Date: Jan. 01, 1900
  • Vol. 7, Issue 4, 045901 (2022)
Experimental and simulation studies of thermal transport based on plasma flow motion in laser-ablated dense regions of Au and CH
Yuxue Zhang, Bo Qing, Yang Zhao, Tianming Song, Zhiyu Zhang, Gang Xiong, Chengwu Huang, Tuo Zhu, Min Lv, Yan Zhao, Jiyan Zhang, and Jiamin Yang
A practical experimental method is proposed to investigate thermal transport by characterizing the motion of plasma flows through a x-ray spectroscopic technique using tracers. By simultaneously measuring multiple parameters, namely, the mass-ablation rate, the temporal evolution of plasma flow velocities and trajector
Matter and Radiation at Extremes
  • Publication Date: Jan. 01, 1900
  • Vol. 7, Issue 4, 045902 (2022)
Radiation and Hydrodynamics
Insensitivity of a turbulent laser-plasma dynamo to initial conditions
A. F. A. Bott, L. Chen, P. Tzeferacos, C. A. J. Palmer, A. R. Bell, R. Bingham, A. Birkel, D. H. Froula, J. Katz, M. W. Kunz, C.-K. Li, H-S. Park, R. Petrasso, J. S. Ross, B. Reville, D. Ryu, F. H. Séguin, T. G. White, A. A. Schekochihin, D. Q. Lamb, and G. Gregori
It has recently been demonstrated experimentally that a turbulent plasma created by the collision of two inhomogeneous, asymmetric, weakly magnetized, laser-produced plasma jets can generate strong stochastic magnetic fields via the small-scale turbulent dynamo mechanism, provided the magnetic Reynolds number of the pl
Matter and Radiation at Extremes
  • Publication Date: Jan. 01, 1900
  • Vol. 7, Issue 4, 046901 (2022)