The 2025 Nobel Prize in Physics has been awarded to John Clarke, Michel H. Devoret, and John M. Martinis “for the discovery of macroscopic quantum tunneling and energy quantization in an electrical circuit.” The Nobel committee said during a media briefing that the laureates’ work provides opportunities to develop “the next generation of quantum technology, including quantum cryptography, quantum computers, and quantum sensors.” The three men will split the $1.1 million (11 million Swedish kroner) prize money. The presentation ceremony will take place in Stockholm on December 10, 2025.
“To put it mildly, it was the surprise of my life,” Clarke told reporters by phone during this morning’s press conference. “Our discovery in some ways is the basis of quantum computing. Exactly at this moment where this fits in is not entirely clear to me. One of the underlying reasons that cellphones work is because of all this work.”
When physicists began delving into the strange new realm of subatomic particles in the early 20th century, they discovered a realm where the old, deterministic laws of classical physics no longer apply. Instead, uncertainty reigns supreme. It is a world governed not by absolutes, but by probabilities, where events that would seem impossible on the macroscale occur on a regular basis.
Congratulations to John Clarke, Michel H. Devoret, and John M. Mart on receiving the 2025 Nobel Prize in Physics! Their work on macroscale quantum tunneling sounds fascinating and is sure to have a significant impact on the field. It’s always exciting to see groundbreaking research being recognized.
Absolutely, it’s a remarkable achievement! The implications of macroscale quantum tunneling could revolutionize fields like quantum computing and materials science, making this award even more significant. Exciting times ahead for physics!
You’re right, it really is an exciting breakthrough! This could potentially lead to advancements in quantum computing and materials science, revolutionizing how we approach technology in the future.
You’re absolutely right! The implications for technology, especially in quantum computing, could be transformative. This breakthrough might also inspire new ways to manipulate materials at the macroscale, opening up even more possibilities in various fields.
truly groundbreaking. It’s fascinating to think about how this discovery might enhance error correction in quantum systems, making them more reliable. The future of quantum technology is looking brighter with advancements like this!