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posted by janrinok on Monday February 03 2020, @02:53AM   Printer-friendly
from the under-pressure dept.

Arthur T Knackerbracket has found the following story:

Researchers long ago theorized that if hydrogen gas were exposed to enough pressure, it would transition into a metal. But the theories were not able to derive how much pressure is required. Doubts about the theories began to arise when scientists developed tools capable of exerting the high pressures that were believed necessary to squeeze hydrogen into a metal. Theorists simply moved the number higher.

In the past several years, however, theorists have come to a consensus—their math showed that hydrogen should transition at approximately 425 gigapascals—but a way to generate that much pressure did not exist. Then, last year, a team at the AEC improved on the diamond anvil cell, which for years has been used to create intense pressure in experiments. In a diamond anvil cell, two opposing diamonds are used to compress a sample between highly polished tips—the pressure generated is typically measured using a reference material. With the new design, called a toroidal diamond anvil cell, the tip was made into a donut shape with a grooved dome. When in use, the dome deforms but does not break at high pressures. With the new design, the researchers were able to exert pressures up to 600 GPa. That still left the problem of how to test a sample of hydrogen as it was being squeezed. The researchers overcame this challenge by simply shining a beam of infrared light down through the center of the device—at normal temperatures, it can pass right through hydrogen. But if it were to meet with a transitioned metal, it would instead be blocked or reflected.

The researchers found that hydrogen samples compressed to 425 gigapascals blocked all infrared and visible light and showed optical reflectivity, as well. They suggest their results indicate that hydrogen does become a solid at 425 gigapascals—but they are already planning another test to bolster their findings. They want to repeat the experiment to determine if the sample begins conducting electricity at 425 gigapascals.

More information: Paul Loubeyre et al. Synchrotron infrared spectroscopic evidence of the probable transition to metal hydrogen, Nature (2020). DOI: 10.1038/s41586-019-1927-3

-- submitted from IRC


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  • (Score: 2) by opinionated_science on Monday February 03 2020, @01:20PM (1 child)

    by opinionated_science (4031) on Monday February 03 2020, @01:20PM (#953099)

    Solid D2 (Deuterium) occurs naturally(?) below 23K

    and yes, its a shiny "black" metal... though that may have been the lighting conditions...

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  • (Score: 0) by Anonymous Coward on Monday February 03 2020, @02:06PM

    by Anonymous Coward on Monday February 03 2020, @02:06PM (#953112)

    hm. apparently surface temperature on Pluto doesn't really go below 33K, so we'd need to go a bit further out before we can test the "naturally" you're questioning there.