Superconductivity

From WikiMD's Wellness Encyclopedia

Stickstoff gekühlter Supraleiter schwebt über Dauermagneten 2009-06-21
Periodic table with superconducting temperatures
CERN-cables-p1030764
Cross section of preform superconductor cable
Cvandrhovst

File:Meissner effect.ogv Superconductivity is a physical phenomenon characterized by the complete absence of electrical resistance in certain materials when they are cooled below a characteristic critical temperature. This phenomenon was first discovered in 1911 by Heike Kamerlingh Onnes, who observed it in mercury at a temperature of approximately 4.2 Kelvin. Superconductivity is a quantum mechanical phenomenon that allows for the electrons in a superconductor to move without energy loss, which has significant implications for electrical systems and magnetic fields.

Discovery and History[edit | edit source]

The discovery of superconductivity has its roots in the exploration of the properties of materials at low temperatures. The quest to understand the behavior of conductors at the brink of absolute zero led to the groundbreaking discovery by Onnes, which opened up a new field of research in condensed matter physics. Since then, various materials have been found to exhibit superconductivity at different critical temperatures. The development of alloys and ceramic materials, known as high-temperature superconductors, has extended the critical temperature closer to practical and economically viable levels.

Mechanism[edit | edit source]

The theoretical understanding of superconductivity was significantly advanced in 1957 with the proposal of the BCS theory by John Bardeen, Leon Cooper, and Robert Schrieffer. This theory explains superconductivity as a result of Cooper pairs of electrons moving through a crystal lattice without scattering, due to a phonon-mediated attraction between electrons. The formation of these Cooper pairs leads to a state where the material can conduct electricity without resistance. The BCS theory, however, primarily applies to conventional superconductors, typically those with lower critical temperatures.

For high-temperature superconductors, the mechanism behind superconductivity is still an area of active research, with various theories suggesting the involvement of more complex interactions.

Applications[edit | edit source]

Superconductivity has a wide range of applications due to its unique properties. In the field of magnet technology, superconductors are used to create powerful magnets for magnetic resonance imaging (MRI) machines, particle accelerators, and magnetic levitation (maglev) trains. The zero resistance property is also exploited in superconducting quantum interference devices (SQUIDs), which are highly sensitive magnetometers used in various scientific and medical applications.

In the area of power transmission, superconducting materials offer the potential for lossless electricity transmission over long distances, although practical and economic challenges remain. Additionally, superconductors are being explored for their potential in quantum computing, where their ability to maintain quantum coherence over longer periods can be highly advantageous.

Challenges and Future Directions[edit | edit source]

Despite the promising applications of superconductivity, there are significant challenges to its widespread adoption. The requirement for cooling materials to extremely low temperatures is a major hurdle, especially for high-temperature superconductors, which still require cooling well below room temperature. Research is ongoing to discover new materials that exhibit superconductivity at higher temperatures, potentially even at room temperature, which would revolutionize many fields by making superconducting technologies more accessible and cost-effective.

See Also[edit | edit source]

WikiMD
Navigation: Wellness - Encyclopedia - Health topics - Disease Index‏‎ - Drugs - World Directory - Gray's Anatomy - Keto diet - Recipes

Search WikiMD

Ad.Tired of being Overweight? Try W8MD's physician weight loss program.
Semaglutide (Ozempic / Wegovy and Tirzepatide (Mounjaro / Zepbound) available.
Advertise on WikiMD

WikiMD's Wellness Encyclopedia

Let Food Be Thy Medicine
Medicine Thy Food - Hippocrates

Medical Disclaimer: WikiMD is not a substitute for professional medical advice. The information on WikiMD is provided as an information resource only, may be incorrect, outdated or misleading, and is not to be used or relied on for any diagnostic or treatment purposes. Please consult your health care provider before making any healthcare decisions or for guidance about a specific medical condition. WikiMD expressly disclaims responsibility, and shall have no liability, for any damages, loss, injury, or liability whatsoever suffered as a result of your reliance on the information contained in this site. By visiting this site you agree to the foregoing terms and conditions, which may from time to time be changed or supplemented by WikiMD. If you do not agree to the foregoing terms and conditions, you should not enter or use this site. See full disclaimer.
Credits:Most images are courtesy of Wikimedia commons, and templates Wikipedia, licensed under CC BY SA or similar.

Contributors: Prab R. Tumpati, MD