At the Edge of Time
- 248 páginas
- 9 horas de lectura
Taking readers into the remarkable world of cosmology, Hooper describes many of the extraordinary and perplexing questions that scientists are asking about the origin and nature of the world.
Este autor se adentra en la cosmología y la física de partículas, especializándose en áreas como la materia oscura, los rayos cósmicos y la astrofísica de neutrinos. Su trabajo explora los profundos misterios del universo, investigando las fuerzas invisibles que dan forma a su estructura y evolución. A través de una rigurosa investigación científica, contribuye a nuestra comprensión fundamental de la composición y la dinámica del cosmos.
Taking readers into the remarkable world of cosmology, Hooper describes many of the extraordinary and perplexing questions that scientists are asking about the origin and nature of the world.
Focusing on dark matter and dark energy, this investigation delves into their essential roles in the universe's structure and expansion. The author, a respected particle physicist, explores the modern theories of particle physics and their relevance to understanding the universe's unseen components. This work aims to illuminate the complexities of the cosmos, providing insights into the forces that govern its behavior and composition.
Focusing on the intersection of cosmology, high-energy astrophysics, and particle physics, this book serves as a comprehensive resource for advanced students and researchers. It covers a wide array of topics, including general relativity, dark matter, and inflation, while remaining accessible to those without a strong background in particle physics. The modular format allows for flexible use, complemented by over 200 homework problems with solutions, making it suitable for both course use and self-study.
Die Dunkle Materie ist seit Jahrzehnten das große Thema der Kosmologen: Es muss eine gigantische Energiequelle geben, die die beobachteten Bewegungen der Sterne und Galaxien antreibt, ohne selbst beobachtbar zu sein. Dan Hooper, Physikprofessor vom Fermi National Accelerator Laboratory in Batavia, Illinois, nutzt dieses ungelöste Rätsel zu einem spannenden Einstieg in die Kosmologie – und gibt zugleich ein Paradebeispiel dafür, wie wissenschaftliche Neugier in systematische Forschung umgesetzt wird.