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Electrons Take New Shape Inside Unconventional Metal

One of the biggest achievements of quantum physics was recasting our vision of the atom. Out was the early 1900s model of a solar system in miniature. Instead, quantum physics showed that electrons meander around the nucleus in clouds that look like tiny balloons. These balloons are known as atomic orbitals, and they come in all sorts of different shapes—perfectly round, two-lobed, clover-leaf-shaped. That’s all well and good for individual atoms, but when atoms come together to form something solid—like a chunk of metal, say—the outermost electrons in the atoms link arms and lose sight of the nucleus they came from, forming many oversized balloons that span the whole chunk of metal. Now, researchers have produced the first experimental evidence that one metal—and likely others in its class—have electrons that manage to preserve a more interesting, multi-lobed structure as they move around in a solid.

Read the Story "Electrons Take New Shape Inside Unconventional Metal"

We conduct curiosity-driven research that explores the most basic building blocks of nature with an eye toward potential applications in information science and technology.  

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    Twisting Up Atoms Through Space and Time

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  • Yellow and blue petals in a row

    Electrons Take New Shape Inside Unconventional Metal

    January 9, 2023
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  • Many-Body Physics

    Some of the most intriguing physics happens when individual particles team up, giving rise to emergent collective properties.

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    Quantum Information and Computing

    JQI physicists are investigating promising quantum computing architectures as well as developing methods to control quantum effects that can be exploited to process information in new ways.

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    Quantum Measurement and Control

    Creating quantum states on demand and controlling them is a critical component to developing practical quantum-based devices.

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The online seminars that sprung up in response to COVID have shown that presentations about cutting edge research can be made available to a much broader group of people than traditionally had access. We are very excited to develop new ways to augment this content and allow people to engage with it, learning the language and context of modern quantum research.

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Alicia Kollár

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JQI Fellows, postdocs, and students actively engage our community and the broader public in science.

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PFC-supported parametric downconversion demo at the 2016 USASEF. Credit: C. Cesare/JQI
PFC-supported parametric downconversion USASEF demo. Credit: C. Cesare/JQI

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The Joint Quantum Institute offers research opportunities for undergraduate students, graduate students and postdoctoral researchers. JQI is located on campus at the University of Maryland, Collage Park, but researchers may work at either the NIST or UMD campus. 

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