Litcius/Paper detail

How to Differentiate Between Near Field and Far Field: Revisiting the Rayleigh Distance

Shu Sun, Renwang Li, Chong Han, Xingchen Liu, Liuxun Xue, Meixia Tao

2025IEEE Communications Magazine28 citationsDOI

Abstract

Future wireless systems are likely to adopt extremely large aperture arrays to achieve higher throughput, wider coverage, and higher spatial resolution. Conventional wireless systems pre-dominantly operate in the far field (FF) of the radiation source. However, as the array size increases and the carrier wavelength decreases, the near field (NF) becomes non-negligible. Since the NF and FF differ in many aspects, it is critical to identify their corresponding regions. In this article, we first provide a comprehensive overview of the existing NF-FF boundaries, then introduce a novel NF-FF demarcation method based on effective degrees of freedom (EDoF) of the channel. Since EDoF is intimately related to channel capacity, the EDoF-based border is able to characterize key channel performance more accurately than the classic Rayleigh distance and other representative benchmarks. Furthermore, we analyze the main features of the EDoF-based NF-FF boundary, provide insights into system design, and outline the associated challenges and research opportunities.

Topics & Concepts

Computer scienceNear and far fieldField (mathematics)TelecommunicationsOpticsPhysicsMathematicsPure mathematicsGeophysics and Sensor TechnologyBladed Disk Vibration Dynamics