The generation of warm dense matter using a magnetic anvil cell

TL;DR

This paper introduces a magnetic anvil cell technique using mega-ampere pulsed power to generate and confine warm dense matter at pressures around 1 Mbar, enabling new experimental insights into planetary core conditions.

Contribution

The paper presents a novel magnetic anvil cell method that can produce stable, high-pressure, high-temperature warm dense matter samples exceeding 1 Mbar, surpassing limitations of traditional methods.

Findings

Achieves pressures around 1 Mbar using magnetic confinement.

Produces millimeter-scale samples with high temperature.

Overcomes pressure limits of diamond anvil cells.

Abstract

Warm dense matter is present at the heart of gas giants and large exo-planets. Yet, its most basic properties are unknown and limit our understanding of planetary formation and evolution. In this state, where pressure climbs above 1 Mbar, matter is strongly coupled and quantum degenerate. This combination invalidates most theories capable of predicting the equation of state, the viscosity or heat conductivity of the material. When such properties are missing, understanding planetary evolution becomes an arduous endeavor. Henceforth, research in this field is actively growing, using high power laser or heavy ion beams to produce samples dense enough to overcome the 1 Mbar limit. These samples are not actively confined and tend to expand rapidly, precluding the existence of any thermodynamically stable equilibrium. However, a mega-ampere-class pulsed-power generator can produce confined matter in the Mbar range, providing two conditions are being met. First, the sample needs to be compressed cylindrically, to maximize magnetic pressure (compared to slab compression). Second, a damper must be used to preclude the formation of a corona around the sample. This corona robs the main sample from valuable current and limits the homogeneity of the compression. According to numerical simulations, the setup proposed here, and called a magnetic anvil cell, can reach pressure on the order of 1 Mbar using a mega-ampere pulsed power driver. These samples span several millimeters in length. Unlike diamond anvil cell, which pressure is limited below 1 Mbar due to materials strength, the magnetic anvil cell has virtually no pressure limit. Further, the current heats the sample to several eV, a temperature well beyond diamond anvil cell capabilities.