This paper introduces the hypothetical synchronous field as a logical consequence of the Belik effect — the hypothetical ability of atoms to enter a state of global synchronisation (“swarm”, “school of fish”). The synchronous field is proposed as the physical medium that enables such synchronisation. It possesses five unique properties: non‑locality (instantaneous or faster‑than‑light coupling), globality (no weakening with distance), permeability (unshielded by any known matter), structuredness (stable anomalies created by stars and galaxies, usable for navigation), and fundamentality (irreducible to known interactions). The field is not created by atoms; rather, atoms resonate with it under certain conditions. Three experimental tests are proposed: non‑local synchronisation of two samples, absence of a switching wave in an extended sample, and partial lifting of inertia (weight loss) under resonant activation. The paper also lists white spots, including the unexplored question of biocompatibility (whether living matter requires special resistance properties). The synchronous field remains a hypothesis, not a confirmed theory. The author invites discussion, criticism, and collaboration to refine or refute the hypothesis. All material has been processed with the help of AI (DeepSeek‑V3/R1) and has not undergone peer review.
Alexander Yourievitch Kotelnikov (Wed,) studied this question.