Hiroyuki Yaguchi
DOI: 10.37421/2476-2296.2023.10.304
Scalar waves have long been a subject of fascination and debate in the world of science and technology. These elusive waves have been associated with a wide range of claims, from revolutionary energy sources to alternative healing modalities. In this comprehensive overview, we delve into the science behind scalar waves, their potential applications and the controversies that have surrounded them. We will explore their origins, properties and current research, shedding light on the ongoing quest to unravel the mystery of scalar waves.
DOI: 10.37421/2476-2296.2023.10.305
Communication technologies have evolved significantly over the past few decades, from wired telephones to wireless internet and satellite communication. However, as the demand for faster and more reliable communication systems continues to grow, researchers are exploring novel approaches to address these challenges. Scalar waves, a relatively obscure and less understood area of physics, have garnered interest as a potential breakthrough in advanced communication technologies. This article explores the concept of scalar waves, their properties and their potential applications in advanced communication systems. We also delve into the challenges and possibilities that lie ahead in harnessing scalar waves for the future of communication.
DOI: 10.37421/2476-2296.2023.10.306
The concept of Faster-Than-Light (FTL) travel has long captivated the imagination of scientists, science fiction enthusiasts and the general public. It remains one of the most elusive frontiers of human exploration. In recent years, the idea of scalar waves, a largely theoretical and controversial area of physics, has gained attention as a potential mechanism for achieving FTL travel. This article explores the fascinating world of scalar waves, their origins and the current scientific thinking about their potential applications, including their role in realizing the dream of FTL travel.
DOI: 10.37421/2476-2296.2023.10.307
Scalar waves, a relatively obscure and enigmatic field of electromagnetic phenomena, have gained attention in recent years for their potential applications in medicine and healing. These waves, often called "Tesla waves" or "longitudinal waves," are distinct from traditional electromagnetic waves like radio waves or microwaves. Scalar waves are characterized by their non-Hertzian nature, meaning they do not oscillate in the conventional sinusoidal pattern. Instead, they possess a unique quality that enables them to interact with biological systems in ways that hold promise for therapeutic applications. This article delves into the science behind scalar waves, their history and the evolving landscape of research and practical applications in medicine and healing.
DOI: 10.37421/2476-2296.2024.11.345
DOI: 10.37421/2476-2296.2024.11.346
DOI: 10.37421/2476-2296.2024.11.349
Fluid Mechanics: Open Access received 291 citations as per Google Scholar report
Spanish 
Chinese 
Russian 
German 
French 
Japanese 
Portuguese 
Hindi 