Is the Earth's core a potential high-temperature superconductor?

In summary, the core of the Earth is not a superconductor, and the pressure needed to create a superconductor is not present.
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  • #2
No, not really.
There are perhaps compounds in the core that would superconduct if you cooled them to a low enough temperature; but the temperature a the core is high not low.

Note that there are LOTS of materials that can superconduct; (nearly) all the metals in the periodic system can be made to superconduct at low enough temperatures and/or high enough pressure. There are also lots of superconducting compounds.
Some, like MgB2 , had been in use for many, many years before someone realized that they became superconducting at relatively high temperatures
 
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  • #3
hagopbul said:
Hello to all

Can we consider the core of the Earth to be a superconductor ,for example Aragon national laboratory hinted for some thing like that
https://www.anl.gov/article/nickel-...tential-for-hightemperature-superconductivity

That been said , what test could verify or disprove this idea

Best
Hagop

First of all, it is "Argonne", not "Aragon. I used to work there, so I'm "sensitive" about someone mangling the name.

Secondly, it is well-known that one can get elevated transition temperatures at high pressures for several superconductors. So this isn't new. However, to say that the hot, heated core of our Earth is a superconductor simply due to the high pressure is a stretch by any imagination. As has been stated, the core is at such a high temperature, it would melt if it were not under pressure.

Zz.
 
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  • #4
Sorry for the mistake in the name

Pressurised superconductors are achieved for LaH10

Dose NiFe able to become a superconductors under high pressure.
 
  • #5
And another question the core is solid metal ?
 

1. What are high pressure superconductors?

High pressure superconductors are materials that exhibit superconductivity (the ability to conduct electricity with zero resistance) at high pressures. These materials have been found to have significantly higher critical temperatures (the temperature at which they become superconducting) compared to traditional superconductors.

2. How are high pressure superconductors created?

High pressure superconductors are typically created by subjecting a material to high pressures using specialized equipment such as a diamond anvil cell. The high pressures cause changes in the material's atomic structure, resulting in the emergence of superconducting properties.

3. What are the potential applications of high pressure superconductors?

High pressure superconductors have potential applications in various fields such as energy transmission, magnetic levitation, and high-speed computing. They could also lead to the development of more efficient and compact electrical devices.

4. What are the challenges with studying high pressure superconductors?

One of the main challenges with studying high pressure superconductors is the difficulty in creating and maintaining the high pressures required for their formation. This often requires expensive and specialized equipment. Additionally, the properties of high pressure superconductors can be complex and difficult to understand, making their study a challenging task.

5. Are there any known high pressure superconductors that can operate at room temperature?

As of now, there are no known high pressure superconductors that can operate at room temperature. However, recent research has shown that certain materials, such as hydrogen sulfide, can exhibit superconducting properties at temperatures as high as 203 K (-70 °C) under high pressures. Further research is being conducted to discover new high pressure superconductors with even higher critical temperatures.

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