Phymath said:so just to clarify there is no known way to fire a single photon from a source?
A single photon is the smallest unit of light and is often referred to as a particle of light. In a double slit experiment, a single photon will act as both a particle and a wave, exhibiting interference patterns as it passes through the two slits.
The behavior of a single photon in a double slit experiment supports the wave-particle duality theory, which states that particles can exhibit both wave-like and particle-like behavior. In this experiment, the single photon acts as a wave when it passes through the slits and interferes with itself, but also behaves as a particle when it is detected at a specific point on the screen.
No, a single photon can only be detected at one of the two slits in a double slit experiment. This is because the photon's wave function collapses upon detection, causing it to behave as a particle and only be detected at one location.
The distance between the slits in a double slit experiment has a direct impact on the interference pattern of a single photon. The smaller the distance, the wider the interference pattern will be, while a larger distance will result in a narrower interference pattern.
No, a single photon cannot pass through both slits simultaneously in a double slit experiment. While it exhibits wave-like behavior, it still behaves as a particle and can only pass through one slit at a time.