{"id":42039,"date":"2024-01-19T11:50:06","date_gmt":"2024-01-19T11:50:06","guid":{"rendered":"https:\/\/www.innovationnewsnetwork.com\/?p=42039"},"modified":"2024-09-04T20:31:01","modified_gmt":"2024-09-04T19:31:01","slug":"researchers-prolong-quantum-interactions-in-new-experimental-system","status":"publish","type":"post","link":"https:\/\/www.innovationnewsnetwork.com\/researchers-prolong-quantum-interactions-in-new-experimental-system\/42039\/","title":{"rendered":"Researchers prolong quantum interactions in new experimental system"},"content":{"rendered":"

Rice researchers successfully prolonged quantum interactions in an experimental system nearly 30-fold by using ultracold temperatures and laser wavelengths to generate a \u2018magic trap\u2019 that helped delay the onset of decoherence.<\/h2>\n

Quantum interactions promise faster computing, enhanced drug development, and new sensing applications. However, they are difficult to study experimentally since most systems can only sustain quantum effects for a short time.<\/p>\n

\u201cThe reason why quantum physics<\/a>\u2019 mysterious features tend to vanish so quickly is a process called decoherence,\u201d said Kaden Hazzard, associate professor of physics and astronomy at Rice University and a corresponding author of the study.<\/p>\n

\u201cThe bigger the system and the larger the couplings to the surroundings, the more the system will behave in a classical, non-quantum fashion \u23af and you lose your ability to investigate things at the quantum level.\u201d<\/p>\n

The research, \u2018Second-scale rotational coherence and dipolar interactions in a gas of ultracold polar molecules<\/a>,\u2019 was published in Nature Physics<\/em>.<\/p>\n

A new arena to study quantum interactions<\/h3>\n

The study is the first experimental demonstration of its kind and provides a new arena to study quantum interactions.<\/p>\n

Simon Cornish\u2019s group in the Department of Physics at Durham University collaborated with Hazzard and his group at Rice to cool molecules to a billion times below room temperature to create a unique quantum mechanical system.<\/p>\n

They then set those molecules to rotate quantum interactions mechanically \u23af a situation analogous to molecules aligning and rotating clockwise and counterclockwise simultaneously \u23af using microwave radiation.<\/p>\n

Cornish explained: \u201cWhen you cool atoms or molecules to these extremely low temperatures, you can control them with light.<\/p>\n

\u201cYou can use lasers to push on the atoms and make them go where you want them to. You can also use lasers to trap or hold them, giving you a level of precision and control you wouldn\u2019t have normally.\u201d<\/p>\n

Generally, the coherence of this rotating behaviour in the ultracold molecules decays over a very short amount of time.<\/p>\n

Before now, the longest recorded quantum state of rotating molecules was measured at 1\/20 of a second.<\/p>\n

A magic wavelength of light<\/h3>\n

The researchers were inspired by theoretical work by Temple University\u2019s Svetlana Kotochigova that suggested a certain \u2018magic\u2019 wavelength of light could preserve quantum interactions for longer.<\/p>\n

When the group applied this theory in the laboratory as a new experimental technique, they created a magic trap which kept the molecules rotating quantum mechanically for a significantly longer time.<\/p>\n

While Hazzard thought this magic laser trap might increase quantum coherence by two- or three-fold, he was shocked to see it kept the molecules uniformly rotating for nearly 1.5 seconds \u23af a 30-fold increase.<\/p>\n

\u201cWhile I\u2019m not surprised it worked, I\u2019m definitely surprised at how well it worked,\u201d he said.<\/p>\n

He concluded: \u201cEven though quantum interactions sound like a very exotic thing, they\u2019re actually responsible for things we see every day, from how metals conduct electricity to how fusion is produced by the Sun.<\/p>\n

\u201cIf you want to make new materials, new sensors or other quantum technologies, you need to understand what is happening at the quantum level, and this research is a step toward achieving new insights.\u201d<\/p>\n","protected":false},"excerpt":{"rendered":"

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