When galaxies collide, they undergo a complex and dramatic process of interaction that unfolds over hundreds of millions to billions of years. The event involves gravitational forces reshaping the galaxies’ structure, triggering star formation, and potentially merging the galaxies into a single, larger one. Here’s what typically happens:
Contents
1. Gravitational Interaction
- Tidal Forces: As the galaxies approach each other, their mutual gravity distorts their shapes, creating tidal tails—long streams of stars and gas extending outward.
- Orbit Disruption: Stars, gas, and dark matter in the galaxies are pulled out of their regular orbits, leading to chaotic motions.
2. Star Formation
- Gas Compression: The collision compresses clouds of gas, often triggering bursts of star formation known as starbursts. This is because the colliding gas clouds produce shock waves that collapse the gas and dust into new stars.
- Bright Regions: These newly formed stars make parts of the galaxies appear much brighter.
3. Black Hole Activity
- If the colliding galaxies have supermassive black holes at their centers, the gas funneled into these black holes during the collision can ignite active galactic nuclei (AGN), where the black holes emit enormous energy.
4. Merging Process
- Chaos to Stability: Over time, the two galaxies may merge into one. This process can result in the formation of an elliptical galaxy or a large spiral galaxy, depending on the masses and dynamics of the initial galaxies.
- Loss of Features: Distinct spiral arms and other original structures may be lost as the merger progresses.
5. Star Systems Survival
- Individual stars rarely collide because of the vast distances between them. However, their orbits may be altered, and some systems may be ejected from the galaxies entirely.
6. Formation of New Structures
- The merger can lead to the creation of new structures like rings, shells, or halo stars around the newly formed galaxy.
Example: The Milky Way and Andromeda
- In about 4.5 billion years, our Milky Way galaxy is expected to collide with the Andromeda Galaxy. This event will likely form a new galaxy, often dubbed “Milkomeda” or “Milkdromeda”, with changes to the structure of both galaxies but minimal direct impact on the solar system itself.
Visualization
Galactic collisions are some of the most spectacular events in astronomy, often studied using telescopes like Hubble. Simulations also help scientists understand the detailed processes, such as those showing how galaxies like the Antennae Galaxies interact.