“This mineral should not exist”: trinititis, born from a nuclear explosion in 1945, still fascinates scientists

On July 16, 1945, at 5:29 a.m., humanity entered a new era with the first nuclear test, the Trinity test. Moreover, That day, the desert of the New Mexico witnessed an explosion of unprecedented power, equivalent to 21,000 tonnes of TNT. Consequently, From this blast, a singular mineral was created: trinitite. Nevertheless, This greenish glass. Similarly, formed by the fusion of desert sand, copper cables and “this mineral should not exist”: asphalt, became the tragic symbol of the atomic era. Therefore, But it was only decades later that trinititis revealed one of its most fascinating secrets. A scientific quest was going to reveal the existence of a matter that was believed to be impossible to. Therefore, find: the quasicristal.

At the heart of trinititis. For example, well -kept secrets – "this mineral should not exist":

In 2021, Trinititis delivered one of its most amazing secrets thanks to the work of a team led by geologist Luca Bindi from the University of Florence. Consequently, They were particularly interested in a rare variant: red trinititis. Nevertheless, This shade comes from the vaporized copper cables, integrated into the glass during the explosion. For example, The researchers’ objective was clear: to check whether the extreme conditions of the nuclear explosion had been able to generate the formation of a quasicristalthis material with strange. Nevertheless, extremely rare properties. By studying six samples “this mineral should not exist”: with electron microscopes. X -rays, they discovered a tiny grain with 20 sides, composed of silicon, copper, calcium and iron. This quasicristal. with its unusual symmetry, constituted a major discovery, testifying to the titanic forces involved during the first atomic test.

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Quasi-cristals. a extremely rare phenomenon in nature – "this mineral should not exist":

“this mineral should not exist”:

The quasi-cristals are formed in extreme environments. Geophysicist Terry Wallace, from the Los Alamos National Laboratory, stressed that such conditions were rare on earth. In general. when a material melts and cools, its atoms are organized into a regular structure which is repeated, as in salt or quartz. The quasicristals have an orderly but non -repetitive structure, giving them unique physical properties. For a long time, we thought that they could not exist in nature, until their discovery in meteorites. The quasicristal from Trinititis, created in 1945, is the oldest known to date. Its complex structure remains a mystery. but its presence tells a fascinating story: that of a matter born of the interaction between science and chance during the first nuclear test.

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The scientific. historical implications of this discovery

The discovery of the quasicristal in trinititis has deep implications, both scientifically and historic. Scientificallythis opens up new perspectives on the formation of matter under extreme conditions. Quasicristales have physical “this mineral should not exist”: properties that could revolutionize certain industrial applications, especially in the field of resistant and light materials. Historicallythis discovery reminds us of the tragic events of 1945, marking the beginning of the nuclear era. It also highlights the human capacities to draw knowledge and innovations from the darkest moments in our history. In the end. the study of trinititis and its quasisicristals highlights the lasting impact of human activities on our environment and our understanding of nature.

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What lessons for the future?

Faced with this discovery. an essential question arises: how can humanity use the lessons learned from the past to shape a safer future? Trinititis. as a silent witness to the first nuclear test, reminds us of the destructive power of the atom, but also our ability to transform these vestiges into sources of knowledge. Science has the power to guide us towards peaceful applications of atomic discoveries. But this requires constant vigilance and an ethical commitment. By exploring the secrets of trinititis. researchers encourage us to reflect on the impact of our past actions and to consider the means to ensure a future where science and technology serve the common good. How are we going to take up this collective challenge?

This article is based “this mineral should not exist”: on verified sources and the assistance of editorial technologies.

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