Is Polarization an Inevitable Outcome of Similarity-Based Content Recommendations? -- Mathematical Proofs and Computational Validation

The increasing reliance on digital platforms shapes how individuals understand the world, as recommendation systems direct users toward content "similar" to their existing preferences. While this process simplifies information retrieval, there is concern that it may foster insular communities, so-called echo chambers, reinforcing existing viewpoints and limiting exposure to alternatives. To investigate whether such polarization emerges from fundamental principles of recommendation systems, we propose a minimal model that represents users and content as points in a continuous space. Users iteratively move toward the median of locally recommended items, chosen by nearest-neighbor criteria, and we show mathematically that they naturally coalesce into distinct, stable clusters without any explicit ideological bias. Computational simulations confirm these findings and explore how population size, adaptation rates, content production probabilities, and noise levels modulate clustering speed and intensity. Our results suggest that similarity-based retrieval, even in simplified scenarios, drives fragmentation. While we do not claim all systems inevitably cause polarization, we highlight that such retrieval is not neutral. Recognizing the geometric underpinnings of recommendation spaces may inform interventions, policies, and critiques that address unintended cultural and ideological divisions.