“This year, superconductivity — the flow of electric current with zero resistance — was discovered in three distinct materials,” reports Quanta magazine. “Two instances stretch the textbook understanding of the phenomenon. The third shreds it completely….”
After four years of reserch a team at Columbia assembled a “two-sheet device, cooled it down, and watched it superconduct…” A lab at Cornell found “a species of superconductivity that no one had seen coming.” And then “Over the summer, a graphene device produced a mythical form of superconductivity:
The discoveries stem from a recent revolution in materials science: All three new instances of superconductivity arise in devices assembled from flat sheets of atoms. These materials display unprecedented flexibility; at the touch of a button, physicists can switch them between conducting, insulating, and more exotic behaviors — a modern form of alchemy that has supercharged the hunt for superconductivity. It now seems increasingly likely that diverse causes can give rise to the phenomenon. Just as birds, bees and dragonflies all fly using different wing structures, materials seem to pair electrons together in different ways. Even as researchers debate exactly what’s happening in the various two-dimensional materials in question, they anticipate that the growing zoo of superconductors will help them achieve a more universal view of the alluring phenomenon…
[C]ustomizable 2D devices had freed them from the drudgery of designing, growing, and testing new crystals one by one. Researchers would now be able to quickly re-create the effects of many different atomic lattices in a single device and find out exactly what electrons are capable of. The research strategy is now paying off. This year, physicists found the first instances of superconductivity in 2D materials other than graphene, along with a completely novel form of superconductivity in a new graphene system. The discoveries have established that the earlier graphene superconductors mark just the outskirts of a wild new jungle…
The experimentalists are amassing a treasure trove of data for theorists to explain. [Cornell’s superconductivity-discovering researchers] Mak and Shan hope that this abundance will let theorists predict ways to create superconductivity that experiments can confirm. That would demonstrate a true understanding of the phenomenon, which would mark both an academic achievement and a key step toward designing materials for revolutionary new technologies.
The article points out that already, superconductivity has “enabled the development of MRI machines and powerful particle colliders.
“If physicists could fully understand how and when the phenomenon arises, perhaps they could engineer a wire that superconducts electricity under everyday conditions rather than exclusively at low temperatures, as is currently the case. World-altering technologies — lossless power grids, magnetically levitating vehicles — might follow.”