Electronic System Design and Manufacturing Sector – M-SIPS, National Policy on Electronics, etc.

How to check if a material is a Superconductor?

Note4Students

From UPSC perspective, the following things are important :

Prelims level: LK-99 Superconductors

Mains level: Not Much

Central Idea

  • Researchers in South Korea have recently unveiled a potential room-temperature superconductor named LK-99, a discovery that could revolutionize industrial and medical applications due to its ability to conduct heavy currents with zero resistance.
  • This article delves into the key characteristics that define a superconductor and the significance of LK-99’s potential discovery.

Understanding Superconductors

A superconductor is a material that, under specific conditions, displays four distinct changes indicating its transition to the superconducting state.

(1) Electronic Effect:

  • A genuine superconductor demonstrates zero resistance when conducting electric current.
  • Verifying this property requires advanced equipment and testing on a sufficiently large sample.

(2) Magnetic Effect:

  • Different types of superconductors exhibit unique responses to magnetic fields.
  • A type I superconductor expels a magnetic field below a critical value, creating the Meissner Effect.
  • A type II superconductor, undergoing a mixed superconducting and non-superconducting phase, prevents magnetic fields from penetrating its bulk, known as flux pinning.

(3) Thermodynamic Effect:

  • The electronic-specific heat, representing the heat required to raise electron temperature by 1 degree Celsius, changes significantly during the superconducting transition.
  • As the material shifts to its superconducting state, the electronic-specific heat decreases.
  • Upon re-warming the material to the critical temperature, the specific heat reverts to its non-superconducting value.

(4) Spectroscopic Effect:

  • A distinctive feature of superconductors is the presence of energy level gaps that restrict electrons from certain energy states.
  • Mapping energy levels in a superconductor reveals these gaps, serving as an indicator of its superconducting nature.

Conventional vs. Unconventional Superconductors:

  • Conventional Superconductors: These materials adhere to the Bardeen-Cooper-Schrieffer theory of superconductivity. They display predictable behaviors explained by established scientific principles.
  • Unconventional Superconductors: In contrast, unconventional superconductors exhibit superconductivity that defies current theoretical explanations. Their unique properties challenge researchers to unravel the mysterious origins of their superconducting abilities.

About Material LK-99

  • Apatite Structure: The Korean group utilized copper-substituted lead apatite, a phosphate mineral with unique tetrahedral motifs, to create LK-99.
  • Superconducting Behavior: LK-99 displayed essential superconducting properties, with almost zero resistance to current flow and sudden emergence of resistance above a critical current threshold.
  • Magnetic Resilience: LK-99 retained superconductivity even under the presence of a magnetic field until reaching a critical threshold.

Implications of the LK-99 Discovery

  • The potential room-temperature superconductor LK-99 carries the promise of transforming various industries and medical applications.
  • However, thorough validation by independent researchers is necessary to establish its authenticity and potential impact.
  • If confirmed, LK-99 could reshape the way we harness and utilize electrical currents in a multitude of fields.

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