Light Bearer said:In the hypothetical situation where enough antimatter comes together to form something macroscopic/doesn't interact with regular matter and destroy itself, could we see it? Would photons (photons are their own antiparticles, right?) interact with antimatter in such a way as to allow it to become visible to our eyes?
Antimatter is a type of matter that has the opposite charge and spin of regular matter. It is composed of antiparticles, such as antiprotons, antineutrons, and positrons.
Antimatter can be created through high-energy collisions, such as those that occur in particle accelerators. It can also be produced naturally, such as in certain types of radioactive decay.
Yes, we can detect antimatter using instruments such as particle detectors. However, it is not possible to directly see antimatter with the naked eye, as it annihilates with regular matter upon contact.
Studying antimatter can help us understand the fundamental properties of matter and the origins of the universe. It also has potential applications in fields such as medicine and energy production.
Currently, it is very difficult and expensive to create large amounts of antimatter. However, scientists are continuously working on ways to increase production and better understand its properties.