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New laser method gives insight into radioactive atomic nuclei

By directing pulses of laser light at atoms, researchers can study how radioactive elements decay in a matter of seconds. The method is described in a new thesis from the University of Gothenburg, which shows that the atomic nuclei of the elements neptunium and fermium are shaped like rugby balls.

Actinides are a group of elements at the bottom of the periodic table. They have a high density, are radioactive, and several of them only exist for a few seconds before they decay. Only four of the 14 elements in this group occur naturally on Earth. The others can be produced in an accelerator, but only in very small quantities. Uranium is the best-known actinide, but a new thesis from the University of Gothenburg focuses on neptunium and fermium.

New Microsoft Defender “RedSun” zero-day PoC grants SYSTEM privileges

A researcher known as “Chaotic Eclipse” has published a proof-of-concept exploit for a second Microsoft Defender zero-day, dubbed “RedSun,” in the past two weeks, protesting how the company works with cybersecurity researchers.

This exploit is for a local privilege escalation (LPE) flaw that grants SYSTEM privileges in Windows 10, Windows 11, and Windows Server on the latest April Patch Tuesday patches, when Windows Defender is enabled.

“When Windows Defender realizes that a malicious file has a cloud tag, for whatever stupid and hilarious reason, the antivirus that’s supposed to protect decides that it is a good idea to just rewrite the file it found again to it’s original location,” explains the researcher.

Temperature shifts change plant proteins powering photosynthesis

Humans adjust to changes in temperature by putting on a sweater or taking off layers. Plants adjust to temperature changes, in part, by switching the way they express the protein that performs the critical first step of photosynthesis, according to new research from Cornell, Texas A&M and Stockholm University.

Rubisco is the most abundant protein on Earth, and it is responsible for fixing carbon so that plants can convert it into photosynthetic energy. Better understanding of the basic science underpinning rubisco’s function, therefore, has implications for increasing agricultural yields, improving carbon sequestration technology and understanding how plants may adapt to a warming climate.

In the paper “ Rubisco Kinetic Acclimation at the Holoenzyme Level,” published April 15 in Proceedings of the National Academy of Sciences, the researchers demonstrate that while rubisco’s protein core remains consistent, parts of its exterior can be swapped out, akin to an outfit. A stiffer exterior is preferred in the heat, for protection, and a looser one in the cold, to increase efficiency. This study, using the mustard-family plant Arabidopsis, is the first to show how rubisco acclimates to temperature changes in any plant species.

The Gravity Particle Should Exist. So Where Is It?

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Physics is this close to understanding the entire universe. And what lives in this gap? Many physicists think it’s the elusive graviton—the quantum particle of gravity—whose discovery will finally allow us to stitch together our two great theories of nature into a single master theory. But what is the graviton, and does it even exist?

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