Author(s): Utban Ahmed; Muhammad Waqar; Mohamed S. Ghidaoui
Linked Author(s): Mohamed S. Ghidaoui
Keywords: Cloaking Localized resonance Super-resolution
Abstract: This study uncovers a fundamental wave principle in pipe systems, revealing behaviors that challenge the conventional understanding of waves. By conceptualizing pipe branches as locally resonant elements, we develop a framework based on the Helmholtz number to identify two transformative regimes: wave cloaking, where branches become effectively “invisible” to propagating waves, and localized resonance, where waves are confined to subwavelength scales, enabling unprecedented control over wave behavior. These insights extend to the inverse problem of wave source (e. g., defects such as leaks and blockages) localization, demonstrating the ability to achieve super-resolution beyond diffraction limits by leveraging the intrinsic physics of the system, rather than relying on signal processing techniques. These phenomena are ubiquitous in wave physics -- occurring in electromagnetic, acoustic, and other wave domains -- and our research highlights them in the context of transient waves within pipe networks, thereby enhancing our scientific understanding and enabling novel approaches for wave control and diagnostics in pipeline engineering.
Year: 2025