The Hidden Power Quantum Computing
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The Hidden Power: Quantum Computing
Uncover the mysteries of the next world-changing paradigm with the ultimate guide to quantum computing by Shervin Tarjoman. Throughout "The Hidden Power: Quantum Computing", we move from the ground-level basics of quantum mechanics all the way to current-generation developments in the quantum-computing space, and demystify those concepts, so that anyone can understand them. Inside the Book Background and History: Introduction to quantum computing and landmarks in the field, such as key breakthroughs and the scientists who played a crucial role in developing the field. Fundamentals of Quantum Mechanics: Understand wave-particle duality, superposition, quantum entanglement, and quantum states, and how they are different from classical mechanics. Quantum Computing Basics: Introduction to qubits, quantum gates, and the essential algorithms — Deutsch-Jozsa and Bernstein-Vazirani — that demonstrate quantum speedup. Advanced Quantum Algorithms: Deep dive into quantum algorithms for cryptography, Shor’s algorithm, Grover's search algorithm, and other significant quantum algorithms. Quantum Hardware: Overview of quantum computing hardware types, including superconducting qubits, trapped ions, and recent advancements in technical implementations. Quantum Programming: Learn to use programming languages and frameworks, including Qiskit, Cirq, and Microsoft Q#. Writing quantum codes: practical guides for simulation and execution. Industry Applications: How quantum computing is influencing cryptography, optimization, AI, machine learning, and other fields, with real-world examples. Future Trends and Ethical Considerations: Insights into trends, societal impacts, and ethical challenges related to quantum computing. Why Should You Read It? Unquestionably, if you want to learn about quantum computing and enjoy an in-depth discussion, this book is yours. The narrative is written in a straightforward manner with a good amount of context that helps in understanding the nuances of many different quantum aspects so if you fit into the student category curious to know the basics, a researcher looking for deep learning, or a techie looking to explore practical implementations, you'll take something from it.
Rare Earths, The Hidden Power of Critical Eleme Rare Earths
Rare Earths: The Hidden Power of Critical Elements is a deeply engaging and informative exploration of the rare earth elements that silently power our modern world. From smartphones and electric vehicles to wind turbines and military defense systems, these critical materials form the backbone of 21st-century technological innovation. Yet, their story remains largely unknown. This compelling book unveils the profound roles played by specific rare earths—Neodymium, Dysprosium, Praseodymium, Terbium, Cerium, Lanthanum, and Yttrium—in shaping industries and enabling transformative change. Each chapter dives into the elemental forces driving advancements in clean energy, high-performance electronics, and advanced manufacturing. The narrative blends scientific clarity with real-world application, making complex materials science accessible to readers from all backgrounds. Whether you are a student, professional, policymaker, or curious mind, Rare Earths offers a journey into the invisible forces powering our future. It reveals how the competition for these elements is shaping geopolitical landscapes and why understanding their potential is vital for sustainable progress.
STACS 2007
This book constitutes the refereed proceedings of the 24th Annual Symposium on Theoretical Aspects of Computer Science, STACS 2007, held in Aachen, Germany in February 2007. The 56 revised full papers presented together with 3 invited papers address the whole range of theoretical computer science as well as current challenges like biological computing, quantum computing, and mobile and net computing.