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Blog post with audio player, show notes, and transcript: https://www.preposterousuniverse.com/podcast/2023/06/19/240-…-universe/

It’s somewhat amazing that cosmology, the study of the universe as a whole, can make any progress at all. But it has, especially so in recent decades. Partly that’s because nature has been kind to us in some ways: the universe is quite a simple place on large scales and at early times. Another reason is a leap forward in the data we have collected, and in the growing use of a powerful tool: computer simulations. I talk with cosmologist Andrew Pontzen on what we know about the universe, and how simulations have helped us figure it out. We also touch on hot topics in cosmology (early galaxies discovered by JWST) as well as philosophical issues (are simulations data or theory?).

Andrew Pontzen received his Ph.D. in astronomy from the University of Cambridge. He is currently Professor of Cosmology at University College London. In addition to his research in cosmology, he frequently writes popular articles and appears in science documentaries. His new book is The Universe in a Box: Simulations and the Quest to Code the Cosmos.

Mindscape Podcast playlist: https://www.youtube.com/playlist?list=PLrxfgDEc2NxY_fRExpDXr87tzRbPCaA5x.

One hacker has managed to recover over $2,000,000 for a man who forgot the password to his crypto wallet by breaking into the physical device in a ‘high-stakes’ hacking attempt.

Even in its infancy cryptocurrency was worth a lot of money, and it’s surprisingly easy to lose it all with one simple mistake.

Horror stories of people accidentally throwing away hard drives with hundreds of millions of dollars worth of Bitcoin are more than enough to scare anyone away, and this particular video shows how close of a call it can be to recover otherwise simple information.

There are various studies that have explored the role of the body’s circadian rhythm in regulating immune activity. Disruptions in the circadian rhythms exacerbate inflammation. Researchers from the Royal College of Surgeons in Ireland (RCSI) University of Medicine and Health Sciences have previously studied how the immune cells called macrophages are affected without an internal body clock. Now, new research by RCSI describes how macrophages work differently at various times of day and could pave the way for time-targeted treatments for inflammatory diseases. The research also illuminates a key role for mitochondria in driving daily changes in immune activity.

The findings are published in The FASEB Journal in an article titled, “Time-of-day control of mitochondria regulates NLRP3 inflammasome activation in macrophages.”

Macrophages release interleukin-1 (IL-1) cytokines in response to inflammatory stimuli, and the NLRP3 inflammasome mediates IL-1-family cytokine release via pyroptosis. Mitochondria play a multifaceted role regulating NLRP3 inflammasome activity. However, whether the macrophage clock regulates the NLRP3 inflammasome via mitochondrial control remains unclear.

Brown dwarfs are curious celestial bodies that appear to straddle the mass divide between stars and planets. Often referred to as “failed stars,” brown dwarfs form in isolation from a collapsing cloud of gas and dust like a star.

However, while fully-fledged stars continue to gather material from the gas and dust cloud that births them, brown dwarfs are less successful at this mass harvesting. As a result, they don’t reach the masses of the smallest stars and can’t trigger the process that defines main sequence stars, like our sun.

Dwarf galaxies like the SMC are often un-evolved when it comes to their chemistry because their history of star formation isn’t very extensive, so they haven’t had a chance to build up many heavy elements, such as carbon, nitrogen, oxygen, silicon or iron. NGC 346, for instance, contains about 10% the abundance of heavy elements that star-forming regions in our Milky Way galaxy have. This makes clusters such as NGC 346 great proxies for studying conditions akin to those found in the early universe.

NGC 346 is still forming lots of stars, and JWST found that many of the young ones, with ages of 20 to 30 million years, still possess planet-forming disks around them. Their existence confounds expectations.

“With Webb, we have a strong confirmation of what we saw with Hubble, and we must rethink how we create computer models for planet formation and early evolution in the young universe,” said Guido De Marchi of the European Space Research and Technology Centre (ESTEC) in the Netherlands, who led the research.