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Emergence of an Epsilon-Near-Zero Medium from Microscopic Atomic Principles (2506.13294v1)

Published 16 Jun 2025 in physics.optics, cond-mat.quant-gas, physics.atom-ph, and quant-ph

Abstract: We demonstrate that an effective near-zero refractive index can emerge from collective light scattering in a discrete atomic lattice, using essentially exact microscopic simulations. In a 25-layer array, cooperative response leads to over a thirtyfold increase in the effective optical wavelength within the medium, almost eliminating optical phase accumulation, with potential applications in spectroscopy and optical manipulation of quantum emitters. Crucially, the near-zero refractive index arises from first-principles microscopic theory, rather than being imposed through continuous phenomenological effective-medium model - providing conceptually important insight into the emergence of macroscopic electromagnetism from atomic-scale interactions.