This publication discusses all technologies related to Particle Harnessing, as needed for Space Beacon Operations. This book is part of a series on the Space Beacon Network. This publication contains 27 technical drawings. ///The Space Beacon Network is a series of Beacons which are placed throughout the galaxy. The Beacon Network provides two purposes: as navigation guide, and as communication relay system. Both of these purposes require "Supply Particles". Therefore, the technologies of Particle Harnessing are essential ...
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This publication discusses all technologies related to Particle Harnessing, as needed for Space Beacon Operations. This book is part of a series on the Space Beacon Network. This publication contains 27 technical drawings. ///The Space Beacon Network is a series of Beacons which are placed throughout the galaxy. The Beacon Network provides two purposes: as navigation guide, and as communication relay system. Both of these purposes require "Supply Particles". Therefore, the technologies of Particle Harnessing are essential for the Beacon Network Operations. //The Beacon Network as Navigation System operates similar to a series of lighthouses. Each Space Beacon emits a unique signal. This signal is then correlated to a specific position on the Beacon Map. Thus, by using the Signal and the Map, the ship's crew will know their exact location at any time. //However, in order to emit the regular signal, we must have supply particles to emit. Therefore, we must capture the particles, and convert these particles as needed, to emit the signal. This must be done for each beacon in the Network. Thus, the technologies for Particle Harnessing becomes essential to the navigation system of the network. ///The second use of the Beacon Network is as communication relay system. The Space Beacons are aligned along a direct path between each pair of settlement planets. Each beacon itself acts as a relay station, able to boost the power of the message before sending the message along. Thus, using this Beacon Line, we can effectively send messages between any two planets, regardless of distance. //However, again, in order to make this communication relay system work properly, we must have supply particles. The "power" of a message is the number of photons, with the same EM energy. Thus, to increase the power of the message in each Beacon, we must first have the photons to add to the message. Thus, the technologies of Particle Harnessing becomes essential to the communication system of the Network. ///Therefore: the importance of the technologies for particle harnessing must be emphasized. The Space Beacon Network will be an effective system, in multiple ways. Yet it will only be effective if we can capture the needed particles from space, and convert them as needed, for the Beacon Operations. //This Publication provides all the innovative technologies for Particle Harnessing Systems. In this publication, the reader will find numerous detailed drawings on each system. We also explain the science behind each operation, and offer best practices related to the systems. ///The following is a very brief overview of Particle Harnessing: There are two types of particles to capture: photons and neutrinos. These particles can be captured at the Space Beacon, from the particles which travel through space around the Beacon. These particles can also be captured from the nearby stars, using Harvesting Equipment, then delivered to the Beacons. Thus, the technologies for Particle Harnessing include a variety of methods for capturing, storing, and delivering these particles. //The particles must also be converted. This means converting the photon or neutrino to the desired photon system. This is the exact energy (and thus frequency) for the emission. Therefore, the Harnessing Systems will also involve storing the supply particles until needed, then converting to the desired photon systems, before emission. //The science behind all of these concepts are explained fully in this publication. The technologies are shown in detailed drawings, so that the reader will understand exactly how to build and operate these systems. //*This publication contains 27 technical drawings.*
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