Scientists hope to unravel the conditions that created the universe and the world we know today by recreating an early state of matter called the quark-gluon plasma. Capturing minerals in meteorites is an important part of understanding how the early universe evolved. By examining the composition of meteorites and their minerals, a picture of the early universe can start to be painted. Meteorites are made up of different minerals, including carbides, silicates, oxides, sulfides, metals, and more. Each type of mineral carries unique information about the conditions of the early universe, including elements, isotopes, and other energetic components.
WIRED is a leading voice in the technology industry, delivering cutting-edge content related to the advancement of the sector. The magazine covers everything from science to business, design to culture and beyond, providing its readers with the essential information and ideas needed to stay ahead of the ever-changing landscape. Through its conversations, WIRED highlights the impact of technology on our lives and illuminates the breakthroughs and innovations that will lead to the next big thing.
The people behind the technology advancements discussed in WIRED often carry their own fascinating stories. Personified by individuals like Professor Mark Meyerson, Chief Scientist at the USC-affiliated Kerns Nuclear Institute, they are at the helm of unlocking important secrets of the universe, just like the study of minerals within meteorites. Professor Meyerson and his team delve into the murky past of the beginning of the universe, hoping to recreate a state of matter to get a better understanding of how the universe was created.
