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The [course_title] describes the fundamental properties of soft x-rays and extreme ultraviolet (EUV) radiation and discusses their applications in a wide variety of fields, including EUV lithography for semiconductor chip manufacture and soft x-ray biomicroscopy. The course begins by presenting the relevant basic principles such as radiation and scattering, wave propagation, diffraction, and coherence, then goes on to examine a broad range of phenomena and applications.

Assessment

This course does not involve any written exams. Students need to answer 5 assignment questions to complete the course, the answers will be in the form of written work in pdf or word. Students can write the answers in their own time. Each answer needs to be 200 words (1 Page). Once the answers are submitted, the tutor will check and assess the work.

Certification

Edukite courses are free to study. To successfully complete a course you must submit all the assignment of the course as part of the assessment. Upon successful completion of a course, you can choose to make your achievement formal by obtaining your Certificate at a cost of £49.

Having an Official Edukite Certification is a great way to celebrate and share your success. You can:

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Course Credit: Open Culture

Course Curriculum

Module 01
AST 210/EE 213 – Lecture 1: Introduction, part A 01:19:00
AST 210/EE 213 – Lecture 2: Introduction, part B 01:21:00
AST 210/EE 213 – Lecture 3: X-ray interaction with matter 01:20:00
AST 210/EE 213 – Lecture 4: Radiation by an accelerated… 01:20:00
AST 210/EE 213 – Lecture 5: X-ray scattering by a multi-… 01:22:00
AST 210/EE 213 – Lecture 6: X-ray refractive index; … 01:16:00
AST 210/EE 213 – Lecture 7: Brewster’s angle; Multilayer … 01:19:00
Module 02
AST 210/EE 213 – Lecture 8: Multilayer applications 01:25:00
AST 210/EE 213 – Lecture 9: Synchrotron radiation 01:24:00
AST 210/EE 213 – Lecture 10: Bending magnet radiation 01:18:00
AST 210/EE 213 – Lecture 11: Undulator radiation 01:25:00
AST 210/EE 213 – Lecture 12: Undulator brightness and… 01:27:00
AST 210/EE 213 – Lecture 13: Plasma physics 01:24:00
AST 210/EE 213 – Lecture 14: Plasma physics (continued) 01:20:00
Module 03
AST 210/EE 213 – Lecture 15: Plasma waves 01:20:00
AST 210/EE 213 – Lecture 16: Blackbody radiation 01:23:00
AST 210/EE 213 – Lecture 17: High harmonic generation 01:24:00
AST 210/EE 213 – Lecture 18: Lasers 01:20:00
AST 210/EE 213 – Lecture 19: EUV and soft x-ray lasers 01:24:00
AST 210/EE 213 – Lecture 20: Laser wavelength scaling 00:52:00
AST 210/EE 213 – Lecture 21: Coherence, spatial and temporal 01:20:00
Module 04
AST 210/EE 213 – Lecture 22: Coherent undulator radiation 00:46:00
AST 210/EE 213 – Lecture 23: van Cittert-Zernike Theorem 01:23:00
AST 210/EE 213 – Lecture 24: Coherence. Zone plate… 01:23:00
AST 210/EE 213 – Lecture 25: Zone plate imaging and… 01:19:00
AST 210/EE 213 – Lecture 26: Spatial resolution and depth… 01:21:00
AST 210/EE 213 – Lecture 27: Applications of zone plate… 01:11:00
AST 210/EE 213 – Lecture 28: EUV lithography 01:05:00
Assessment
Submit Your Assignment 00:00:00
Certification 00:00:00

Course Reviews

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