ch0k1 on Nostr: Kagome superconductor breaks laws of time reversal at record -144 °F ...
Kagome superconductor breaks laws of time reversal at record -144 °F
https://interestingengineering.com/science/kagome-superconductor-breaks-time-reversal
Quantum systems don’t work effectively under normal conditions and typically require extremely low-temperature settings. This is because, at higher temperatures, thermal energy can disrupt quantum states, causing decoherence or loss of the desired quantum effects.
However, scientists are developing superconductors to make quantum systems work at higher temperatures. This is crucial for adopting quantum technology on a large scale.
originally posted at https://stacker.news/items/766363
https://interestingengineering.com/science/kagome-superconductor-breaks-time-reversal
Quantum systems don’t work effectively under normal conditions and typically require extremely low-temperature settings. This is because, at higher temperatures, thermal energy can disrupt quantum states, causing decoherence or loss of the desired quantum effects.
However, scientists are developing superconductors to make quantum systems work at higher temperatures. This is crucial for adopting quantum technology on a large scale.
originally posted at https://stacker.news/items/766363