11 Engineering Physics

Fundamentals of Photonics

This open resource, designed for first and second year students, provides an introduction to photonics. It represents work done through the US National Science Foundation and is made of up ten chapters, or modules, created by various experts in the the field.

Includes: Examples, lab assignments, problem exercises/questions, and additional projects.

May suit: ENGPHYS 3E04, PHYSICS 3N04 and ELECENG 4EM4.

BSc Optics

This book is about optics for advanced undergraduate and beginning graduate students of physics, electrical engineering and related fields. It is assumed that the student is familiar with Maxwell’s equations. Although the book takes account of the fact that optics is part of electromagnetism, special emphasis is put on the usefulness of approximate models of optics, their hierarchy and limits of validity. Approximate models such as geometrical optics and paraxial geometrical optics are treated extensively and applied to image formation by the human eye, the microscope and the telescope. Polarisation states and how to manipulate them are studied using Jones vectors and Jones matrices. In the context of interference, the coherence of light is explained thoroughly. To understand fundamental limits of resolution which cannot be explained by geometrical optics, diffraction theory is applied to imaging. The angular spectrum method and evanescent waves are used to understand the inherent loss of information about subwavelength features during the propagation of light. The book ends with a study of the working principle of the laser.

Includes: Remarks, external sources, and problems.

May suit: ENGPHYS 3E04/4S03, PHYSICS 3N04 and ELECENG 3FK4/4EM4.

License

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ARCHIVED OER By Discipline Guide Version 2 Draft DO NOT UPDATE Copyright © 2018 by Lauri M. Aesoph is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.

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