Stephan Sullivan An artist’s representation shows the researchers’ quantum functional groups (brightly colored spheres) connecting with larger molecules.
Stephan Sullivan An artist's representation shows the researchers' quantum functional groups (brightly colored spheres) connecting with larger molecules. Stronger, faster. Quantum computers promise far greater speed and processing power than today's most powerful supercomputers. The quantum quandary. Because these next-generation computers rely on the fragile interaction of atomic and subatomic particles, scaling up their processing power has proved a challenge. A chemistry solution. Researchers have created a new molecule that has the potential to protect quantum interaction at greater scales without the need for traditional electrical engineering tools and machinery.
TO READ THIS ARTICLE, CREATE YOUR ACCOUNT
And extend your reading, free of charge and with no commitment.
