Gunsno Tsui said:What happens if a photon, photon b, interacts with a slower another photon, photon a, which is in front? Taking in account that these two photons are identical except for their speed, they are on the same path and direction as well.
Gunsno Tsui said:What happens if a photon, photon b, interacts with a slower another photon, photon a, which is in front? Taking in account that these two photons are identical except for their speed, they are on the same path and direction as well.
A photon is a fundamental particle that is the basic unit of light and all other forms of electromagnetic radiation. It has zero mass and travels at the speed of light in a vacuum.
Yes, photons can interact with each other through a process called scattering. This occurs when one photon transfers some of its energy and momentum to another photon.
This means that the two photons will collide and exchange energy and momentum. The resulting interaction will cause the slower photon to speed up and the faster photon to slow down.
The interaction between photons can cause changes in their properties such as their direction of travel, energy, and polarization. These changes are determined by the laws of conservation of energy and momentum.
Yes, photons can also interact with other particles such as electrons and protons. These interactions can result in the emission or absorption of photons, which play a crucial role in many physical processes and technologies.