Course contents
Electromagnetic fields, propagation in vacuum and matter. Polarization, interference, thin film optics, optical metrology. Diffraction, Fourier optics, coherence, labs.
Course memo Autumn 2020-52024
Version 1 – 10/13/2020, 10:59:27 PM
Autumn 2020-1 (Start date 24/08/2020, English)
English
SCI/Applied undergraduate Physics
Headings denoted with an asterisk ( * ) is retrieved from the course syllabus version Autumn 2020
Electromagnetic fields, propagation in vacuum and matter. Polarization, interference, thin film optics, optical metrology. Diffraction, Fourier optics, coherence, labs.
After completing the course the student should be able to:
Learning activities | Content | Preparations |
---|---|---|
Basic knowledge within classical physics, particularly waves and elementary classical optics (course SK1101, Classical Physics or corresponding), mathematics (vector analysis, differential equations, fourier transformation).
"Optics", by Eugene Hecht, 5th edition, Pearson Education. ISBN: 978-1-292-09693-4.
It is recommended that you purchase the book in printed form, because you are allowed to have it with you at the exam.
Students at KTH with a permanent disability can get support during studies from Funka:
Funka - compensatory support for students with disabilities
Please inform the course coordinator if you need compensatory support during the course. Present a certificate from Funka.
A, B, C, D, E, FX, F
Based on recommendation from KTH’s coordinator for disabilities, the examiner will decide how to adapt an examination for students with documented disability.
The examiner may apply another examination format when re-examining individual students.
The section below is not retrieved from the course syllabus:
Allowed at the written exam: Books, simple calculator or graphing calculator, any handwritten or printed notes.
Forbidden at the written exam: Communication devices, computers.
One written exam (TEN1; 4 university credits). Laboratory work (LAB1; 2 university credits).
Grading criteria:
For the written exam:
E: The student demonstrates some knowledge of optical phenomena and is able to solve basic problems related to technological applications of optics.
D: The student demonstrates considerable knowledge of optical phenomena and is able to solve basic problems related to technological applications of optics.
C: The student demonstrates considerable knowledge of optical phenomena and is able to solve advanced problems related to technological applications of optics from some parts of the course.
B: The student demonstrates wide and deep knowledge of optical phenomena and is able to solve advanced problems related to technological applications of optics from several parts of the course.
A: The student demonstrates wide and deep knowledge of optical phenomena and is able to solve advanced problems related to technological applications of optics from all parts of the course.
F: The student does not meet the criteria for grade E.
Operational grading criteria:
The written exam consists of 6 questions. Answering all questions correctly gives 6 points. You need 2.6 points to pass. Grading scale: A 5.0-6.0; B 4.1-4.9; C 3.5-4.0; D 2.9-3.4; E 2.6-2.8; F 0.0-2.5.
For the lab work and reports:
P: The student group completed all lab tasks of all labs and handed in a report about each lab, which appropriately presents the results, analyses and conclusions from the labs, including answers to all questions from the instructions.
F: The student group does not meet the criteria for grade P or the student did not actively participate in the student group.
No information inserted
24 Aug 2020
English