Research on superconductors

Context: 

A new study, published in Nature reported discovering room temperature superconductivity in nitrogen doped lutetium hydride at roughly a thousand atmospheres of pressure, which is considered a significant breakthrough.

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Image Source: The Hindu

What are Superconductors?

  • At every power plant, a portion of the electricity generated is lost during transmission because the wires and cables that carry the current have electrical resistance. 
  • It can be mitigated to a large extent if a material is used that does not resist the flow of current. 
  • Physicists discovered such materials a century ago — they are called superconductors. 
  • It has been realised that superconductors can exhibit truly quantum phenomena that have the potential to enable revolutionary technologies, such as enabling efficient quantum computers.
  • All the materials known to be superconductors become that way in special circumstances. Outside those circumstances, they resist the flow of current. 
  • For example, aluminium becomes superconducting at a cold temperature of less than –250°C. 
  • Physicists and engineers have been toiling to find materials that superconduct electricity in ambient conditions, that is at one or a few atmospheres of pressure and at room temperature.

Method used by researchers: 

  • The authors suggested that the presence of nitrogen led to the novel findings. 
  • They found a way to push some nitrogen into the crystal of lutetium hydride by developing a high pressure synthesis process. 
  • Superconductivity in the material is brought about by the (microscopic) jiggling motion of the crystal
  • Researchers intuited that the right amount of nitrogen could induce the right amount of jiggling — to produce superconductivity at room temperature but without destabilising the crystal. 
  • The nitrogen doped lutetium hydride was stable in ambient conditions (with a blue colour) but not yet superconducting. 
    • When a thousand atmospheres of pressure was applied to this material, it turned red, indicating a change in the nature of the electrons in the material. 
  • When the scientists measured the material’s electrical resistance, magnetic properties, and thermal properties in these conditions, they concluded that the material had become a superconductor.

Questioning the study:

  • The validity of this procedure has to be carefully ascertained; some experts have already expressed an inclination to outright reject the technique as being completely unfounded. 
  • The measurement of the material’s diamagnetism (i.e. when it expels magnetic fields) also suffers the same criticism.

Source: The Hindu

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