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2. Wave–particle duality - Wikipedia

   en.wikipedia.org/wiki/Wave–particle_duality

   In the late 17th century, Sir Isaac Newton had advocated that light was corpuscular (particulate), but Christiaan Huygens took an opposing wave description. While Newton had favored a particle approach, he was the first to attempt to reconcile both wave and particle theories of light, and the only one in his time to consider both, thereby anticipating modern wave-particle duality.

3. Double-slit experiment - Wikipedia

   en.wikipedia.org/wiki/Double-slit_experiment

   This demonstrates the wave–particle duality, which states that all matter exhibits both wave and particle properties: The particle is measured as a single pulse at a single position, while the modulus squared of the wave describes the probability of detecting the particle at a specific place on the screen giving a statistical interference ...

4. Quantum mechanics - Wikipedia

   en.wikipedia.org/wiki/Quantum_mechanics

   This behavior is known as wave–particle duality. In addition to light, electrons, atoms, and molecules are all found to exhibit the same dual behavior when fired towards a double slit. [2] A (simplified) diagram of Quantum Tunneling, a phenomenon by which a particle may move through a barrier which would be impossible under classical mechanics.

5. Introduction to quantum mechanics - Wikipedia

   en.wikipedia.org/wiki/Introduction_to_quantum...

   The quantum system acts as a wave when passing through the double slits, but as a particle when it is detected. This is a typical feature of quantum complementarity: a quantum system acts as a wave in an experiment to measure its wave-like properties, and like a particle in an experiment to measure its particle-like properties.

6. Matter wave - Wikipedia

   en.wikipedia.org/wiki/Matter_wave

   Matter waves are a central part of the theory of quantum mechanics, being half of wave–particle duality. At all scales where measurements have been practical, matter exhibits wave -like behavior. For example, a beam of electrons can be diffracted just like a beam of light or a water wave.

7. Wheeler's delayed-choice experiment - Wikipedia

   en.wikipedia.org/wiki/Wheeler's_delayed-choice...

   [27] [28] According to the complementarity principle, the 'particle-like' (having exact location) or 'wave-like' (having frequency or amplitude) properties of a photon can be measured, but not both at the same time. Which characteristic is measured depends on whether experimenters use a device intended to observe particles or to observe waves. [29]

8. Hanbury Brown and Twiss effect - Wikipedia

   en.wikipedia.org/wiki/Hanbury_Brown_and_Twiss_effect

   HBT effects can generally be attributed to the wave–particle duality of the beam, and the results of a given experiment depend on whether the beam is composed of fermions or bosons. Devices which use the effect are commonly called intensity interferometers and were originally used in astronomy , although they are also heavily used in the ...

9. Pilot wave theory - Wikipedia

   en.wikipedia.org/wiki/Pilot_wave_theory

   According to pilot wave theory, the point particle and the matter wave are both real and distinct physical entities (unlike standard quantum mechanics, which postulates no physical particle or wave entities, only observed wave-particle duality). The pilot wave guides the motion of the point particles as described by the guidance equation.