“Nanostripes” of alternating electrons and holes (spaces where electrons should be that appear as positive charges) appear in this scanning tunneling microscope image of a copper-oxide superconductor, just one of many odd patterns seen in years of observations of high-temperature superconductors. Credit: Davis Research Group
The holy grail is to design a material where the pairs are bound together so strongly that superconductivity can happen even up to room temperature
High-temperature superconductors exhibit a frustratingly varied catalog of odd behavior, such as electrons that arrange themselves into stripes or refuse to arrange themselves symmetrically around atoms. Now two physicists propose that such behaviors – and superconductivity itself – can all be traced to a single starting point, and they explain why there are so many variations.
This theory might be a step toward new, higher-temperature superconductors that would revolutionize electrical engineering with more efficient motors and generators and lossless power transmission.
J.C. Séamus Davis, the James Gilbert White Distinguished Professor in the Physical Sciences at Cornell and director of the Center for Emergent Superconductivity at Brookhaven National Laboratory, and Dung-Hai Lee, professor of physics at the University of California-Berkeley and faculty scientist at Lawrence Berkeley National Laboratory, describe their theory in the Oct. 7 issue of the Proceedings of the National Academy of Sciences.
The oddities, known as intertwined ordered phases, seem to interfere with superconductivity. “We now have a simple way to understand how they are created and hopefully this understanding will help us to know how to get rid of them,” said Lee.
Superconductivity, where current flows with zero resistance, was first discovered in metals cooled almost to absolute zero. Recently, complex crystals of copper, iron and some other metals combined with trace elements have been found to superconduct at temperatures up to around 150 Kelvins (degrees Celsius above absolute zero). For the last 10 years, Davis has examined these materials with scanning tunneling microscopes so well insulated from vibration that they can scan a surface in steps smaller than the width of an atom, while measuring the energies of electrons under their probes. He has discovered several of the intertwined phases of high-temperature superconductors, which appear in scans as unexpected arrangements of the electronic structure, and found them to vary widely from one material to another.
“[Our work] was not random; we were trying to map out all the known phenomena,” Davis said.
The Latest on: Superconductor theory
- Researchers find way to form diodes from superconductorson May 11, 2022 at 8:28 am
Superconductors are metals whose electrical ... Professor Tero Heikkilä, from the University of Jyväskylä, worked on the theory behind the effect. He says that "this finding showed the power ...
- Researchers find way to form diodes from superconductorson May 10, 2022 at 5:00 pm
Superconductors are metals whose electrical ... from the University of Jyväskylä, worked on the theory behind the effect: "This finding showed the power of collaboration between different ...
- New Possibilities Discovered for Room-Temperature Superconductivityon May 4, 2022 at 4:13 pm
Scientists discover that triggering superconductivity with a flash of light involves the same fundamental physics that are at work in the more stable states needed for devices, opening a new path ...
- From the archives: When superconductors finally grew upon May 2, 2022 at 8:58 am
Theory didn’t help much ... And the electron pairs interact with other pairs in the superconductor in wavelike fashion. What keeps the electrons from colliding with the lattice and giving ...
- Electromagnetic cavity could enhance high-temperature superconductorson April 19, 2022 at 5:00 pm
Such correlations are thought to underlie many of the exotic and potential useful aspects of these so-called “unconventional” superconductors ... The conventional theory of superconductivity (known as ...
- CuO2 planes in superconducting Pr2Ba4Cu7O15-δ are both insulating and antiferromagneticon April 11, 2022 at 2:13 am
This is because all the "high-Tc" cuprate superconductors have CuO 2 planes. Despite this established theory, there exists some reports that, for superconducting Pr 2 Ba 4 Cu 7 O 15-δ (Pr247), the CuO ...
- Quantitative Study Of Quantum Phase Transitions Key To High-Temp Superconductivity (Lawrence Berkeley Nat’l Lab )on April 4, 2022 at 12:08 pm
Here we argue that the putative quantum critical point in the prototypical unconventional superconductor CeCoIn 5 is characterized ... Drawing on established theory of f-electron metals, we discuss an ...
- The Theory of Superconductivity in the High-T"c" Cuprate Superconductorson March 26, 2022 at 1:13 pm
This book is P. W. Anderson's long-awaited full presentation of his theory of high-T"c" superconductivity in the cuprates. He realized that this striking new phenomenon needed for its explanation not ...
via Bing News
The Latest on: Superconductivity
- A new step in the search for room-temperature superconductorson May 19, 2022 at 11:00 am
A new, nanoscale link between superconductivity and charge density waves could help scientists develop room-temperature superconductors.
- Spin keeps electrons in line in iron-based superconductoron May 19, 2022 at 8:57 am
Researchers from PSI's Spectroscopy of Quantum Materials group together with scientists from Beijing Normal University have solved a puzzle at the forefront of research into iron-based superconductors ...
- Electronic Nematicity: Spin Keeps Electrons in Line in Iron-Based Superconductoron May 19, 2022 at 8:00 am
Electronic nematicity, thought to be an ingredient in high-temperature superconductivity, is primarily spin driven in FeSe finds a study in Nature Physics. Researchers from PSI’s Spectroscopy of Quant ...
- Remarkably strong pairing of charge carriers in bilayer antiferromagnetic Mott insulatorson May 18, 2022 at 6:30 am
Over the past few years, many physicists and material scientists have been investigating superconductivity, the complete disappearance of electrical resistance observed in some solid materials.
- Experiment reveals new facts on superconductivityon May 17, 2022 at 7:45 am
Research Laboratory in Zurich, Switzerland, have uncovered the first experimental evidence that a magnetic field reverses its direction or sign as it passes through a superconducting thin film.
- Studying the pseudogap in superconducting cuprate materialson May 16, 2022 at 10:53 am
Despite being vital to the study of superconductivity in cuprate materials the physical origins of the pseudogap remain a mystery. Over three decades since the discovery of high-temperature ...
- New Possibilities Discovered for Room-Temperature Superconductivityon May 4, 2022 at 4:13 pm
Scientists discover that triggering superconductivity with a flash of light involves the same fundamental physics that are at work in the more stable states needed for devices, opening a new path ...
- New 'impossible' discovery could make computers 400 times fasteron May 3, 2022 at 3:59 am
Researchers have created one-way superconductivity, paving the way for superconductors to supersede semiconductors in electronics.
- Scientists Just Cracked One-Way Superconductivity, Thought Impossible for Over 100 Yearson May 2, 2022 at 10:13 am
The phenomenon of superconductivity was first discovered in 1911 by Dutch physicist Kamerlingh Onnes, and refers to a state in which electrical current passes through a material with zero resistance.
via Bing News
