Diffraction without Waves: Emergence of the Quantum Substructure of Light

• URL: http://arxiv.org/abs/2003.14217v1
• Date: Sat, 28 Mar 2020 22:34:20 GMT
• Title: Diffraction without Waves: Emergence of the Quantum Substructure of Light
• Authors: Joachim St\"ohr
• Abstract summary: We introduce the new paradigm that diffraction images directly reflect the fundamental quantum states of light. In conventional quantum mechanics, corresponding to first order QED, the fundamental photon nature of light remains hidden. The true photon based substructure of light is shown to clearly emerge through characteristic diffraction images in second order QED.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Today, the nature of light is accounted for by one of the jewels of physics, quantum electrodynamics (QED), the fundamental theory of light and matter. Yet owing to its infinite complexity, scientists still debate how its central concept, the photon, can be reconciled with the perceived existence of light waves, emerging 200 years ago in the wake of Young's double slit diffraction experiment. Ever since, the phenomenon of diffraction has been viewed to embody the wave nature of light, leading to the schizophrenic wave-particle duality. The latter does not exist in QED which is photon based without the existence of waves. Here we introduce the new paradigm that diffraction images directly reflect the fundamental quantum states of light. This is revealed by analysis of the evolution of modern versions of Young's experiment performed with differently modified laser light and photon-based detection. In conventional quantum mechanics, corresponding to first order QED, the fundamental photon nature of light remains hidden since different quantum states produce only two basic types of diffraction patterns that may also be explained by coherent and incoherent wave superposition. The true photon based substructure of light is shown to clearly emerge through characteristic diffraction images in second order QED. The degeneracy of the first order images is lifted, the wave-particle equivalence breaks down, and the patterns directly reveal the true quantum substructure of light. This allows the replacement of the conventional concept of wave coherence by a precise order-dependent degree of coherence that quantifies the interference and diffraction behavior of all quantum states of light.

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