GS 3: Science & TechnologyPrelims

New way helps superconductor break temperature record, PgII

Scientists achieve superconductivity at -122°C under normal pressure using 'pressure quenching' technique, breaking 33-year record with Hg1223 material.

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Key Highlights:

  • Scientists achieved superconductivity in a copper oxide material (Hg1223) at -122°C under normal pressure using a new technique called pressure quenching.
  • This breaks the previous record of -140°C for superconductivity at room pressure, which was also held by Hg1223 since 1993.
  • The pressure-quench protocol (PQP) involves compressing, cooling, and rapidly releasing pressure on the material to trap its superconducting state.
  • The team confirmed that roughly 78% of the material's volume became superconducting, indicating a bulk property.

Detailed Insights:

  • The pressure quenching method induces defects and internal strain in the material's crystal structure, mimicking the effects of pressure even after its removal.
  • Superconductors operating at room temperature and normal pressure could revolutionize power grids, MRI machines, electric motors, transportation, and renewable energy infrastructure.
  • The University of Houston team's work may enable the stabilization of exotic electronic properties in other materials under ordinary conditions.
  • Past controversies in high-temperature superconductivity research, such as those involving Ranga Dias and the LK-99 material, have heightened scrutiny in the field.
  • Ching-Wu Chu, the lead investigator, is a pioneer in high-temperature superconductivity, known for his 1987 discovery of yttrium barium copper oxide (YBCO), which superconducts at liquid nitrogen temperatures.

Scientific/Technical Concepts Involved:

  • Superconductivity: A phenomenon where a material conducts electricity with zero resistance below a critical temperature.
  • Pressure Quenching: A technique involving applying and rapidly releasing pressure to stabilize material properties.
  • Diamond Anvil Cell: A high-pressure device used to compress materials for studying their properties under extreme conditions.
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