Surface Science: Methods of Surface Analysis

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Английский
16 h
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  • From www.edx.org
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  • Self-paced
  • Free Access
  • Fee-based Certificate
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  • 8 Sequences
  • Intermediate Level

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Course details

Syllabus

1. Introduction
• Introduction

2. Corpuscular diagnostics. Secondary–ion mass spectrometry. Rutherford backscattering
2.1. Secondary–ion mass spectrometry
• SIMS – Operating principles, plant layout
• SIMS – Analysis and interpretation of the results, examples
2.2. Rutherford backscattering
• RBS – Principles of operation, the circuit
• RBS – Analysis and interpretation of the results, examples
2.3. Analysis of elastically reflected recoil atoms (ERD)
• ERD – Principles of operation, the circuit
• ERD – Analysis and interpretation of the results, examples
2.4. The method of nuclear reactions (NRA)
• NRA – Principles of operation, the circuit
• NRA – Analysis and interpretation of the results, examples

3. Electronic diagnostics
3.1. Auger spectrometry
• Auger spectrometry – principles of operation, installation scheme
• Auger spectrometry – analysis of the results, examples
3.2. Energy– dispersion spectrometry
• Energy– Dispersion spectrometry – principles of operation, installation scheme
• Energy– Dispersion spectrometry – analysis of the results, examples
3.3. Translucent electron microscopy
• TEM – Principles of operation of the device and circuit
• TEM – Sample images and their interpretation
3.4. Scanning Electron Microscopy
• SEM – Principles and scheme of the device
• SEM – Sample images, their interpretation

4. X–ray diagnostics
4.1. The X–ray photo–electron spectroscopy (XPS)
• XPS – principles of operation of the device and circuit
• XPS – Examples of results, their interpretation

5. Probe microscopes
5.1. Tunneling microscope
• TCM – Working principles of the device circuit
• TCM – Sample images and their interpretation
5.2. The atomic force microscope
• ACM – Working principles of the device circuit
• ACM – Sample images, their interpretation

6. Conclusion
• Conclusion
• Summarizing, for a summary of the methods studied

Prerequisite

• Bachelor degree in Physics
• Vacuum system basics
• Particle surface interaction basics

Instructors

Yaroslav A. Sadovskiy
Assistant lecturer at the Plasma Physics Department of National Research Nuclear University
MEPhI

Editor

National Research Nuclear University “MEPhI” is one of the most recognized technical universities in Russia. It is the only research nuclear university in Russia. The aim of the university existence is preparing the specialists for nuclear industry, science, information technology and other high-tech sectors of Russian economy. National Research Nuclear University “MEPhI” implements postgraduate professional education curricula (PhD and postdoctoral level), carries out fundamental and applied scientific research in high-priority fields of science and technologies. Among MEPhI graduates are Nobel Prize winners, members of the Russian Academy of Sciences, and winners of national prizes. Its professors and alumni have made major contributions to various fields of theoretical and experimental physics, mathematics, cybernetics, and computer sciences.

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