This book presents a quantitative description of the physics of solar-cell materials, transport processes, fabrication methods, and offers a scientific understanding of the technology involved. It also presents the current knowledge of the electrical characteristics of modules arrays and balance of systems (BOS) for a wide spectrum of applications. It particularly focuses on solar-powered communication systems and building integrated photovoltaic (BIPV) systems, exploring the reliability and viability aspects in detail. The book is of interest to application engineers, practitioners in private and government agencies, as well as graduate and postgraduate students.
In this book Professor Lubin lays out the fundamental physics and mathematics required to radically alter our capabilities in propulsion to enable extreme high-speed space flight both in our solar system and beyond. The case is made that the only currently viable solution to enable this transformation, including relativistic flight for the first interstellar robotic missions, is using large-scale directed energy. Traditional methods of propulsion are not capable of achieving the speed required for these missions, including fast crewed missions to Mars as well as the many robotic missions desired both in our solar system and to the nearest stars. Humanity has now reached a technological tipping point with the ability to project power over vast distances with transformational implications in a wide variety of areas, from propulsion to beaming power throughout our solar system to planetary defence. In a series of over 60 technical papers, the fundamentals of this transformation are outlined and synthesized in this book, allowing a detailed understanding of the many challenges ahead and a roadmap for human exploration far beyond our solar system. While the road ahead is long and challenging, it provides the path to radically alter humanity's future.
Solar Photovoltaics: Fundamentals, Technologies And Applications Book Pdf
2ff7e9595c
Comments