Superconductors and best conductors

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Gold, silver, and copper are excellent electrical conductors at room temperature but do not become superconductors at any finite temperature. At absolute zero (0 K), while metals may exhibit zero resistivity, they do not necessarily meet the stricter criteria for superconductivity, which involves a phase transition and the Meissner effect. Most metals experience residual resistivity as they approach 0 K, meaning they may not achieve true zero resistance. Additionally, in superconductors, the current primarily flows as a surface current, regardless of whether it is direct current (DC) or alternating current (AC). Understanding these distinctions is crucial for grasping the nature of superconductivity.
fisico30
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Hello Forum

gold, silver, copper are the best electrical conductors are room temperature. But they cannot be superconductors: there is no finite, low critical temperature at which they become superconductors...

But what if we could bring their temperature to 0 kelvin? I believe that all metals become superconductors (R=0) at o kelvin, correct?
All materials? Even insulators, can be become superconductors at 0 k?

thanks
fisico30
 
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fisico30 said:
Hello Forum

gold, silver, copper are the best electrical conductors are room temperature. But they cannot be superconductors: there is no finite, low critical temperature at which they become superconductors...

But what if we could bring their temperature to 0 kelvin? I believe that all metals become superconductors (R=0) at o kelvin, correct?
All materials? Even insulators, can be become superconductors at 0 k?

thanks
fisico30

There's a difference between a metal having "zero" resistivity and a superconductor. A superconductor has a stricter criteria, and, it is a "phase transition".

One needs to look at the Meissner effect, and the different between a diamagnet and perfect diamagnet. It is clearly manifested when cooling in a magnetic field.

BTW, most metals do not have zero resistance at T=0. There is something called residual resistivity that starts to creep up as one gets very close to 0K.

Zz.
 
Ok, thanks, I see.

So silver does not have a critical temperature and it may not even have zero resistivity at T=0 K...

As far as the current flowing in superconductors go: I think the current can only be a surface current, regardless of it being DC or AC...
Is that correct? If so, why?
thanks
fisico30
 
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