Today’s most powerful computers hit a wall when tackling certain problems, from designing new drugs to cracking encryption codes. Error-free quantum computers promise to overcome those challenges, but building them requires materials with exotic properties of topological superconductors that are incredibly difficult to produce. Now, researchers at the University of Chicago Pritzker School of Molecular Engineering (UChicago PME) and West Virginia University have found a way to tune these materials into existence by simply tweaking a chemical recipe, resulting in a change in many-electron interactions.
Source link
Trending
- Plaid valued at $8B in employee share sale
- Vinoperte Launches Today, Redefining the Wine Ordering Experience
- A46 northbound between A435 near Alcester and A422 | Northbound | Accident
- Friday February 27 to Wednesday March 4
- Walmart agrees to $100M settlement over deceptive pay practices in Spark Driver program
- Paul Atkins Confirmed As A Bitcoin 2026 Speaker
- Fossil amber reveals the secret lives of Cretaceous ants
- Gillingham head to Barrow hoping to bounce back from their 3-0 home loss against Oldham Athletic –Weekend hosts gave up a two-goal lead in 3-2 defeat at Fleetwood
Tuning topological superconductors into existence by adjusting the ratio of two elements
By bibhuti
