Description
This comprehensive guide combines accelerator physics theory with practical MATLAB implementations. The second edition has been updated to reflect current computational methods and tools used in modern particle accelerator facilities worldwide.
Readers will learn fundamental concepts including beam dynamics, magnetic optics, particle trajectories, and RF cavity design through interactive MATLAB simulations. Each chapter progresses from theoretical foundations to real-world applications, enabling students and professionals to model complex accelerator systems.
The book covers essential topics such as linear and circular accelerators, synchrotron radiation, beam transport systems, and diagnostic techniques. With numerous worked examples and downloadable MATLAB code, this resource bridges the gap between academic theory and practical accelerator engineering.
Reviews
There are no reviews yet.