Solid and Liquid Oxygen under Ultrahigh Magnetic Fields

Abstract: Oxygen is a unique molecule that possesses a spin quantum number S=1. In the condensed phases of oxygen, the delicate balance between the antiferromagnetic interaction and van der Waals force results in the various phases with different crystal structures. By applying ultrahigh magnetic fields, the antiferromagnetic coupling between O2 molecules breaks, and novel high-field phases can appear. We have investigated the physical properties of condensed oxygen under ultrahigh magnetic fields and have found that th… Show more

“…A small peak at 55 K, observed in all measurements, came from oxygen traces in the system, which becomes solid at that point. 64 At temperatures below 10 K, there is another significant increase in magnetization, arising from defects in crystalline NiPS 3 .…”

Charge compensation in a layered van der Waals NiPS₃ host through various cationic intercalations

“…A small peak at 55 K, observed in all measurements, came from oxygen traces in the system, which becomes solid at that point. 64 At temperatures below 10 K, there is another significant increase in magnetization, arising from defects in crystalline NiPS 3 .…”

Charge compensation in a layered van der Waals NiPS₃ host through various cationic intercalations

Magnetics of Liquid Metal

Magnetics of Liquid Metal