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Photons, which are the fundamental particles of light, exhibit properties of both waves and particles. However, it's important to note that photons themselves are not waves and particles simultaneously. Instead, they exhibit wave-like behavior in certain situations and particle-like behavior in others. The wave-particle duality of photons is a concept in quantum mechanics that helps explain their behavior.

Wave-like behavior of photons: In certain experiments, such as the double-slit experiment, photons display interference and diffraction patterns that are characteristic of waves. When a beam of light passes through two closely spaced slits, it creates an interference pattern on a screen, indicating that photons behave as waves and can interfere with each other.

Particle-like behavior of photons: In other experiments, such as the photoelectric effect, photons exhibit particle-like behavior. The photoelectric effect occurs when photons strike a material surface and eject electrons. The energy of the photons determines the kinetic energy of the emitted electrons. This phenomenon demonstrates that light behaves as discrete packets of energy (particles) that can transfer their energy to electrons.

The wave-particle duality suggests that the behavior of photons depends on the experimental setup and the nature of the observation being made. The wave-like properties are evident when observing phenomena related to interference and diffraction, while the particle-like properties are observed when studying interactions with matter and energy transfer.

The interpretation of wave-particle duality is a topic of ongoing debate and interpretation within quantum mechanics, and different interpretations, such as the Copenhagen interpretation or the pilot wave theory, offer varying explanations for the behavior of photons and other particles.

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