Imagine aliens finding the golden record only to search earth and find a floating sign in space saying “301 moved permanently”.

TL;DR

The concept of a stellar engine, as discussed on Kurzgesagt’s YouTube channel, proposes using thrusters to move our entire solar system. The Shkadov Thruster, a passive solar sail system, would harness the Sun’s energy to propel the system, but it would be extremely slow, potentially moving 100 light-years in 230 million years. To increase speed, astrophysicist Matthew Caplan designed an active engine using the Bussard ramjet concept, known as the Caplan Thruster, which could move the solar system 50 light-years in a million years. This engine uses the Sun’s materials for fusion propulsion, generating thrust to push the Sun.

The secrets of black holes and dark matter could lie before the Big Bang, a new study of “bouncing” cosmology hints.

An exploration of new findings regarding the last universe common ancestor of life, or LUCA, and abiogenesis in general.

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“For the most part, we think of the deep sea as a place where decaying material falls down and animals eat the remnants. But this finding is recalibrating that dynamic,” said Dr. Jeffrey Marlow.

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What can deep ocean life teach us about finding life on other worlds? This is what a recent study published in Nature Geoscience hopes to address as an international team of researchers investigated how “dark oxygen” —which is oxygen produced without sunlight—is produced by deep sea creatures that reside within the Clarion-Clipperton Zone (CCZ) which is approximately 12,000 to 18,000 feet beneath the ocean’s surface and completely dark. This study holds the potential to help researchers better understand the conditions for life and where else we might find these conditions on worlds outside Earth.

For the study, the researchers used deep-sea chambers on the seafloor to measure changes in oxygen levels, which the team initially hypothesized was caused by the microbial life and other creatures living between the rocks, the latter of which are millions of years old. Along with thinking the local life produced the oxygen, the team also hypothesized the life consumed it, as well, resulting decreased oxygen levels. However, after 48 hours of collecting data, the researchers the oxygen levels increased, indicating that something else was producing oxygen at these extreme depths so far from the Sun.

The researchers found that these million-year-old rocks, called polymetallic nodules, were responsible for producing the oxygen, which the team has since dubbed dark oxygen since these ocean depths are so far down that no sunlight can reach it. With these incredible findings, the researchers postulate that dark oxygen could help explain why and how life can survive at such extreme depths, and potentially help astrobiologists find life on other world, including Jupiter’s moon, Europa, and Saturn’s moon, Enceladus.

The search for extraterrestrial life has profound physical, mental and spiritual implications, says Nathalie Cabrol in The Secret Life of the Universe —and it belongs to everyone.

By Zane Wolf

Related: These nearby star systems could be good targets in the search for alien life (video)

“Both TOI-1408 b and TOI-1408 c are incredibly close to their parent star compared to the planets in our solar system,” research lead author Judith Korth of Lund University told Space.com. “Imagine our solar system, but instead, Jupiter is orbiting very close to the sun nearly every four days, one-twentieth of the period of Mercury.

This is already very close to the star, and still, we detected another planet even closer to the star that interacts strongly with its big neighbor, causing their orbits to wobble in ways we’ve never seen before.