- South Korean scientists claim they have created a superconductor (LK-99) that can work at room temperature.
- Experts may be skeptical, but it is possible that such a material could enhance energy storage and production.
- The chips that are used in consumer electronics, such as mobile phones and cars, could be improved.
Electricity is less efficient than it could be. Electricity that travels is not as efficient. Along with a superconductorеликие дуи loses energyAlong the way
Present-day superconductors, however, function under costly special environments — what if we could change that?
This is the premise of LK-99. Scientists in South Korea claim to have developed a superconductor. It has been the subject of headlines and posts on social media in the last week.
In two unreviewed papers, scientists explain that the LK-99 is a compound made of lead, oxygen, phosphorous. They describe how copper was added to the material, which may have created channels where the superconductivity occurred. Science.
Many experts believe that the majority of people are not aware. You can also find out more about the following:The material does exactly what the scientists say. LK-99’s breakthrough status will only be confirmed when other scientists can reproduce its results.
In this regard, some experts have been consulted. You can try it out by clicking here.Insider reported that scientists have been searching for this holy grail for years. The prospects are far off.
Why superconductors that work at room temperature are so difficult to find
“The Holy Grail would be something that is superconducting in room temperature,” said Leonard KahnThe chair of the Department of Physics, University of Rhode Island College.
Scientists are currently playing a guessing-game, changing materials in an attempt to raise the critical temperature.
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Superconducting elements like tantalum or mercury, for instance, must be cooled to -450° Fahrenheit. Some compounds are superconductive when heated to higher temperatures. They can be cooled using liquid nitrogen around -320° Fahrenheit.
Kahn explained that some materials are superconductive at higher temperatures. “But you have to put them under so much pressure they become unusable for any application,” he said.
LK-99 wasn’t the only claim made of this kind. There are Similar attempts have been made in the pastThat doesn’t seem to be the case. In 2020, the Science journal Nature published a piece about the topic. Retracted later
Edwin Fohtung is an associate professor of materials science and engineering, at Rensselaer. He told Insider that a superconductor could be achieved by “understanding the fundamental principles of superconductivity or inventing new material, or finding novel ways to increase the critical temperature.”
Today, superconductors can be found in a variety of applications.
“It’s not that we do not have superconductors, but we can only make that work under extremely high pressures, and at very low temperatures,” said Elif Akçalı, an associate professor at the University of Florida who teaches industrial and systems engineering.
“When that’s the case, you’re putting in so much energy to make that work,” Akçalı said. “For me, I think it is losing its value from a commercial perspective.”
Superconductors emit magnetic fields and diamagnetic, which is a phenomenon called the Meissner effect. Kahn stated that “if you put a magnetic near them, they will oppose the magnet and magnets will actually float over top of them.”
Currently,MRI machines, quantum computers.Magnetic levitation TrainsAll use superconductivity. It takes approximately to cool an MRI. 2,0 litres of liquid HeliumThe cost of. Short supply.
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If researchers were to find a superconductor at room temperature, the impact would be enormous for many industries, including energy and transportation. Take power plants, for instance:
“If you had superconducting wires instead of the regular wires that they’re using, it would be the equivalent of having 5% to 10% more power stations, and you wouldn’t be putting any more carbon into the atmosphere,” Kahn said. “The possibilities for this would be enormous, but we’re still not there.”
It will take some time before superconductors are used in a revolutionary way.
Experts say we are still some time away from seeing a dramatic change in superconductor usage. Multiple labs must first repeat and confirm the experiment in order to ensure that LK-99 (or something similar) actually works.
A workable material means that companies have to change the way they make products.
Take chips for example. It’s not yet clear whether superconducting materials can be successfully integrated into chips. The manufacturing process of chipsSiddharth Joshi, an assistant professor of Computer Science and Engineering at the University of Notre Dame said that this can be done in a manner that is both economically feasible and not overly burdensome.
Joshi stated, “At the moment, we do not design chips that assume you can put superconductors there.”
He added that the use of superconductors as part of the chip design could result in some interesting designs. However, the technology first needs to be mature before it can be used in chips.
But again, it could work. That means we can make chips that use less energy and can perform more. They can also take up less room. Navid Aasdi, a professor of electrical and computing engineering at the University of Florida, says that laptops and phones could be even smaller.
Low-energy chip technology could help machines achieve a great deal more. Asadi explained that for newer technologies like autonomous and electric vehicles, this can help them navigate the types of questions they encounter while driving.
“Should the car be parked between the lines?” Will I pass this car? Should I brake? Should I increase or decrease my speed? “These are all decisions that the chips make constantly, and they require energy,” said he. “A major focus of chip design is low-power energy chips.”
Superconductors could make chips faster and more efficient, and they could also support large computing power and energy requirements to sustain other devices. Artificial Intelligence Including Generative AIDale Rogers is a professor and supply chain expert at Arizona State University.
If it is true, “this kind of superconductor break-through can enable huge advances and processing abilities in Artificial Intelligence,” he said.
