A few weeks ago, I explored the possibilities of what might happen if Neptune's orbit should get jiggled by a rogue sun wandering too close to our system. More recently, I read an article that explains that Jupiter has already done some wandering, in order to be in the orbit it's in.
Jupiter's current orbit averages 5.2 astronomical units (AU = the average distance between the sun and Earth). But researchers now say the gas giant started to form some 18 AU away, which is about twice as far out as present-day Saturn. Furthermore, Jupiter made that journey in about 700,000 years, which is the blink of an eye in astronomical terms.
The idea of a wandering Jupiter is not new; I've heard several theories about it. But this time there is some proof that Jupiter formed a long way from the sun and then migrated inward, and that proof came from the Trojan asteroids that share Jupiter's orbit.
Jupiter has 2 groups of Trojan asteroids that share its orbit around the sun. A large group is in front of the planet, and a smaller group follow it. Researchers ran numerous computer simulations that showed the early solar system through millions of years of evolution by 50-day increments.
The simulations showed that the inward migration of the giant planet always resulted in a larger swarm of Trojans in front of Jupiter than behind it. As Jupiter traveled inwards—propelled by gravitational interactions between the fledgling gas giant and the sun's protoplanetary disk—it created a wide zone of gravitational stability in front of it, leading to more asteroids being caught before it than behind it.
Other simulations that relied on Jupiter forming in its current position resulted in both groups of asteroids being the same size.
One more step to this becoming the solar system we know today.
I can't help but wonder what was happening to Venus, Earth and Mars during the 700,000 years that Jupiter came rolling so much closer.
"Trojan asteroids reveal Jupiter's great
migration", Astronomy, July 2019
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