Download Free Analysis Of An Antimatter Initiated Fusion Rocket Propulsion System Book in PDF and EPUB Free Download. You can read online Analysis Of An Antimatter Initiated Fusion Rocket Propulsion System and write the review.

What Is Fusion Rocket The concept of a fusion rocket refers to a theoretical design for a rocket that would be powered by fusion propulsion. Such a rocket would be able to offer effective and continuous acceleration in space without the need to carry a significant amount of fuel. The concept calls for fusion power technology that is beyond the capability of today's systems, as well as rockets that are far bigger and more sophisticated. How You Will Benefit (I) Insights, and validations about the following topics: Chapter 1: Fusion rocket Chapter 2: Interstellar travel Chapter 3: Interplanetary spaceflight Chapter 4: Spacecraft propulsion Chapter 5: Nuclear thermal rocket Chapter 6: Gaseous fission reactor Chapter 7: Nuclear salt-water rocket Chapter 8: Bussard ramjet Chapter 9: Antimatter rocket Chapter 10: Nuclear pulse propulsion Chapter 11: Antimatter-catalyzed nuclear pulse propulsion Chapter 12: Robert W. Bussard Chapter 13: Project Orion (nuclear propulsion) Chapter 14: Nuclear propulsion Chapter 15: Project Daedalus Chapter 16: Project Longshot Chapter 17: Interstellar probe Chapter 18: Spacecraft electric propulsion Chapter 19: Project Valkyrie Chapter 20: Gas core reactor rocket Chapter 21: Direct Fusion Drive (II) Answering the public top questions about fusion rocket. (III) Real world examples for the usage of fusion rocket in many fields. (IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of fusion rocket' technologies. Who This Book Is For Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of fusion rocket.
This text provides a collection of the original ideas of many of the leading engineers, scientists, and fusion energy specialists. The specific intent of the collection is to explore the possibility of using fusion energy in advanced and future propulsion systems so that suitable space transportation can be developed, enhanced, and perfected.
For nearly four decades the fictional spaceships of the "Star Trek" universe have been powered by antimatter. But antimatter is not science fiction, and neither is the idea of using it for space propulsion. In Mirror Matter: Pioneering Antimatter Physics, renowned physicist Dr. Robert L. Forward and science writer Joel Davis show why, and how. Mirror Matter is the answer to the skeptics who say that using antimatter is too risky, too difficult, or too expensive. Forward and Davis describe how to make, capture, store, and use antimatter. Mirror Matter explains, step-by-step, how to greatly improve the efficiency and cost-effectiveness of antimatter production; how antimatter can be captured and safely stored until it is used; and how it can improve the propulsion capability of interplanetary rocket engines by one to two orders of magnitude. If the solar system is to one day be our big backyard, it will come about using "mirror matter" for space propulsion.
The technology of the next few decades could possibly allow us to explore with robotic probes the closest stars outside our Solar System, and maybe even observe some of the recently discovered planets circling these stars. This book looks at the reasons for exploring our stellar neighbors and at the technologies we are developing to build space probes that can traverse the enormous distances between the stars. In order to reach the nearest stars, we must first develop a propulsion technology that would take our robotic probes there in a reasonable time. Such propulsion technology has radically different requirements from conventional chemical rockets, because of the enormous distances that must be crossed. Surprisingly, many propulsion schemes for interstellar travel have been suggested and await only practical engineering solutions and the political will to make them a reality. This is a result of the tremendous advances in astrophysics that have been made in recent decades and the perseverance and imagination of tenacious theoretical physicists. This book explores these different propulsion schemes – all based on current physics – and the challenges they present to physicists, engineers, and space exploration entrepreneurs. This book will be helpful to anyone who really wants to understand the principles behind and likely future course of interstellar travel and who wants to recognizes the distinctions between pure fantasy (such as Star Trek’s ‘warp drive’) and methods that are grounded in real physics and offer practical technological solutions for exploring the stars in the decades to come.
This book includes numerous calculations for the many specific examples included within. I have included the many calculated examples to provide the reader with immediate justifications for the numerous concepts described. This was not done to belittle or talk down to the reader but rather to give the reader a clear sense of the plausibility for the propulsion methods and performance capabilities thereof. Interstellar travel at the many specific highly relativistic velocities contemplated in this bookand, in some cases, extreme vehicle massesis still a very controversial subject but nonetheless a highly mathematicalized and intelligible subject. My hope and intention is to thus clearly inspire and show the reader the plausibility of the concepts by providing the reader with proper evidence through his or her simple inspection of the formulas and values included in the computations. Some speculative physics is included, which is based on commonly presented theoretical constructs.
Frontiers of Propulsion Science is the first-ever compilation of emerging science relevant to such notions as space drives, warp drives, gravity control, and faster-than-light travel - the kind of breakthroughs that would revolutionize spaceflight and enable human voyages to other star systems. Although these concepts might sound like science fiction, they are appearing in growing numbers in reputable scientific journals. This is a nascent field where a variety of concepts and issues are being explored in the scientific literature, beginning in about the early 1990s. The collective status is still in step 1 and 2 of the scientific method, with initial observations being made and initial hypotheses being formulated, but a small number of approaches are already at step 4, with experiments underway. This emerging science, combined with the realization that rockets are fundamentally inadequate for interstellar exploration, led NASA to support the Breakthrough Propulsion Physics Project from 1996 through 2002.""Frontiers of Propulsion Science"" covers that project as well as other related work, so as to provide managers, scientists, engineers, and graduate students with enough starting material that they can comprehend the status of this research and decide if and how to pursue it in more depth themselves. Five major sections are included in the book: Understanding the Problem lays the groundwork for the technical details to follow; Propulsion Without Rockets discusses space drives and gravity control, both in general terms and with specific examples; Faster-Than-Light Travel starts with a review of the known relativistic limits, followed by the faster-than-light implications from both general relativity and quantum physics; Energy Considerations deals with spacecraft power systems and summarizes the limits of technology based on accrued science; and, From This Point Forward offers suggestions for how to manage and conduct research on such visionary topics.