systems, focusing on a concise set of core concepts. This book assumes a basic understanding of physics and calculus. In some instances, formal rigor is relaxed to ensure simplicity and clarity, making the material accessible for engineering estimations without delving into unnecessary complexities. It introduces many basic concepts of technical optics, illustrated by practical problem solutions, providing real-world relevance. Covering a broad range of topics, the content includes geometrical, wave, and quantum optics, spherical wavefronts, lens equations, and magnification. Additionally, it discusses invariants and imaging, optical systems, aberrations, coherence of light, polarized light applications, optical testing, radiometry, light sources, sensors, lasers, spectral systems, waveguides, wavefront correctors, and light propagation simulation. A distinctive feature of this book is its description of a wide range of engineering systems using a compact, uniform set of basic concepts. Practical information is included throughout, making the book valuable for everyday practice in optical imaging and instrumentation, and ensuring it is an essential resource for students and professionals in the field of optical engineering. |