This article reviews contemporary scientific works advancing the development of a superluminal communication system through extra spatial dimensions. Works by Benakli (2026), Dai & Stojkovic (2024), Greene et al. (2023), Arkani-Hamed, Dimopoulos & Dvali (1999), Hall (2025), Emparan, Suzuki & Tanabe (2013), and data from the Planck Collaboration are examined. It is shown that the idea of superluminal communication through branes and extra dimensions is actively being developed in modern literature, but in a fragmented manner. Special attention is given to the work of Emparan, Suzuki & Tanabe (2013), which demonstrates that in the limit of infinite dimensions, general relativity simplifies and black holes behave as non-interacting particles — this provides direct physical justification for the infinite-dimensional geometry underlying IDM. For the first time, an attempt is made to bring these works together into a unified picture and connect them with the Infinite-Dimensional Multiverse Model (IDM). It is established that existing works do not compete but complement each other: Arkani-Hamed provides the theoretical foundation, Greene provides proof of possibility without causality violation, Dai & Stojkovic provide a specific physical mechanism of a "shortcut" through the bulk, Benakli provides the architecture of an information channel through the Kaluza-Klein tower, and Emparan, Suzuki & Tanabe provide justification for the infinite-dimensional limit. IDM proposes for the first time a specific method for determining the direction to a neighboring universe — through the anisotropy of fundamental constants (the dipole component of the fine-structure constant). Important clarification: the specific coordinates of neighboring universe A1 and neighboring universe B1 are not currently known and require experimental determination. Steps for transitioning from theory to prototype are formulated: experimental verification of anisotropy of constants, development of a modulator based on the Casimir effect, creation of an antenna and receiver, and then an Earth-Jupiter communication system.
Alexander Yourievitch Kotelnikov (Sat,) studied this question.