US EditionDemonstration of first antimatter quantum bit paves way for improved comparisons of matter and antimatter
CERN'S ANTIMATTER FACTORY, JUL 23 – The BASE collaboration at CERN maintained an antiproton qubit oscillation for 50 seconds, enabling precision measurements that could reveal new physics beyond the Standard Model.
7 Articles
7 Articles
Scientists just made the 1st antimatter 'qubit.' Here's why it could be a big deal
Scientists made an antimatter qubit made from an antiproton that is in a state of quantum superposition. This breakthrough will allow the strength of the particle's magnetic moment to be measured with unprecedented precision.
Demonstration of first antimatter quantum bit paves way for improved comparisons of matter and antimatter
In a breakthrough for antimatter research, the BASE collaboration at CERN has kept an antiproton—the antimatter counterpart of a proton—oscillating smoothly between two different quantum states for almost a minute while trapped. The achievement, reported in a paper published today in the journal Nature, marks the first demonstration of an antimatter quantum bit, or qubit, and paves the way for substantially improved comparisons between the behav…
Diario de Jerez
Granada HoyCERN manages to control the quantum state of an antiproton for 50 seconds, a key advance in exploring more accurately the symmetry between matter and antimatter An international team achieves the most complete visualization of the human genome
An antiproton qubit was isolated and manipulated for the first time for almost a minute. A milestone for physics and quantum computing. The post Antimatter qubit opens new way for quantum computers first appeared on ingenieur.de - Jobbörse und Nachrichtenportal für Ingenieure.
An antiproton, trapped in an electromagnetic kfig, commutes between two internal conditions - almost a minute long. Researchers succeeded in the first controlled quantum vibration of an antimatter particle. It could adjust the most precise scale of modern physics. (Continue reading)
In a breakthrough for antimatter research, the basic collaboration at CERN has kept an antiproton – the counterpart of the antimatter of a proton – gently oscillating between two different quantum states for almost a minute while being trapped. The realization, reported in an article published today in the journal Nature, marks [...]
Coverage Details
Bias Distribution
- 100% of the sources are Center
Factuality
To view factuality data please Upgrade to Premium
