The unique model of this story appeared in Quanta Magazine.
In 2024, superconductivity—the stream of electrical present with zero resistance—was found in three distinct supplies. Two cases stretch the textbook understanding of the phenomenon. The third shreds it fully. “It’s an especially uncommon type of superconductivity that lots of people would have stated will not be potential,” stated Ashvin Vishwanath, a physicist at Harvard College who was not concerned within the discoveries.
Ever since 1911, when the Dutch scientist Heike Kamerlingh Onnes first noticed electrical resistance vanish, superconductivity has captivated physicists. There’s the pure thriller of the way it occurs: The phenomenon requires electrons, which carry electrical present, to pair up. Electrons repel one another, so how can they be united?
Then there’s the technological promise: Already, superconductivity has enabled the event of MRI machines and highly effective particle colliders. If physicists may totally perceive how and when the phenomenon arises, maybe they might engineer a wire that superconducts electrical energy underneath on a regular basis situations moderately than solely at low temperatures, as is presently the case. World-altering applied sciences—lossless energy grids, magnetically levitating automobiles—would possibly observe.
The current spate of discoveries has each compounded the thriller of superconductivity and heightened the optimism. “It appears to be, in supplies, that superconductivity is all over the place,” stated Matthew Yankowitz, a physicist on the College of Washington.
The discoveries stem from a current revolution in supplies science: All three new cases of superconductivity come up in units assembled from flat sheets of atoms. These supplies show unprecedented flexibility; on the contact of a button, physicists can change them between conducting, insulating, and extra unique behaviors—a contemporary type of alchemy that has supercharged the hunt for superconductivity.
It now appears more and more seemingly that numerous causes can provide rise to the phenomenon. Simply as birds, bees and dragonflies all fly utilizing totally different wing buildings, supplies appear to pair electrons collectively in several methods. At the same time as researchers debate precisely what’s occurring within the numerous two-dimensional supplies in query, they anticipate that the rising zoo of superconductors will assist them obtain a extra common view of the alluring phenomenon.
Pairing Electrons
The case of Kamerlingh Onnes’ observations (and superconductivity seen in different extraordinarily chilly metals) was lastly cracked in 1957. John Bardeen, Leon Cooper, and John Robert Schrieffer discovered that at low temperatures, a fabric’s jittery atomic lattice quiets down, so extra delicate results come by way of. Electrons gently tug on protons within the lattice, drawing them inward to create an extra of optimistic cost. That deformation, referred to as a phonon, can then attract a second electron, forming a “Cooper pair.” Cooper pairs can all come collectively right into a coherent quantum entity in a approach that lone elections can’t. The ensuing quantum soup slips frictionlessly in between the fabric’s atoms, which usually impede electrical stream.
Bardeen, Cooper, and Schrieffer’s concept of phonon-based superconductivity earned them the physics Nobel Prize in 1972. However it turned out to not be the entire story. Within the Eighties, physicists discovered that copper-filled crystals referred to as cuprates may superconduct at increased temperatures, the place atomic jiggles wash out phonons. Different comparable examples adopted.
