German scientists from the GSI Helm Holotzinram found a new super heavy Isotop, 257 SG, which shows unexpected details about stability and nuclear acquisition. This study was published in Physical Review posts and was told that this isotop, which was made fuse with Lead 206 to Chromam -52, more longer than usual, long -lasting long -long long -long long -long long -lasting lambs. Long Lonely Lonely Lonely Lonely Lonely Lonely Lonely Lonely Lonely Lonely Lonely Lonely How this isotop was built for a long time. Rare longevity and 253RF provides new indicators of mucus on how the quantum number or the crackdown affects the fiber resistance. These consequences lead to gaps and we have a understanding of the effects of quantum shells in the super heavy nuclei, which is very important to avoid immediately dispersing.
Challenging traditional ideas on k -quantum number and fission
According to a GSI study, it challenges conservative ideas to see how quantum numbers affect the cognitive. Earlier, it was found that high K values were maximized, but after getting results from the GSI team, more complicated dynamic. Dr. Paul Moust, co -author of the study, said, “He found that quantum numbers obstruct the fusion, but still knows how much it is.”
Discovery of the first K-Isomeric state in Seberjim
One of the major milestones is the identity of the first K-Isomeric state in Sebridge. In 259SG, scientists found that 40 microscopes occur after the formation of an electron signal. This is a clear evidence of high-tech speed K-Isomer. These states have a longer time and rubbing for a longer time than their ground -state counterparts.
The theory of the theory of stability
This discovery of scientists provides key implications for island stability, which has long been created. This is a region where super heavy elements can live a relatively long half -life. If K-Isomers still exist in the discovered elements such as 120, they can enable scientists to detect nuclear, otherwise it will fall under only one microscope.
To combine 256sg with ultra -fast detection system
Under the GSI, this team of German scientists now aims to combine 256SG, which can be much faster than observation or predictions. Their success depends on a high -speed detection system developed by the GSI, which is capable of capturing events within 100 nano seconds. This continuous research by the team can help new looks and study the heaviest elements in the constant table.
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257 SG, Cebragem, Iceomer, Super Heavy, Elements, Nuclear Stability, Fusion, GSI, Taska, Physical Overview Letter, Element 120, Island Stability
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