AUC Banner
cat04

Main Page

Table of Contents


 

General Information

Undergraduate Studies

Graduate Studies

Research

Continuing Education & Training Programs

Appendix: Personnel & Enrollment

 

 

 

 

 

 

 

doctorate2 cafe2 study3
gradstud
 Physics Courses (PHYS)
SPNavLeft SPNavRight SPNavUp

PHYS

550

SPNavLeft SPNavRight SPNavUp

Advanced Materials and Techniques

Prerequisites: PHYS 322L, PHYS 323L. Offered in spring.
An integrated laboratory course teaching students modern preparative solid state techniques (e.g. Sol-Gel method, Bridgman technique) and how to tailor the properties and performance of a material by modifications of its stoichiometry, the amount of doping, and the structural aspects. Students will prepare samples of materials with current interest (e.g. glasses, complex oxides, sinter ceramics, certain important single crystals, electronic materials, etc.). The structure, possible phase transitions, and their influence on materials properties are examined by advanced techniques (e.g. optical and electron microscopy, X-ray diffraction, TGA, DSC). The applicability of the materials for magnetic, electronic, and optical purposes will also be investigated. Emphasis is laid on studying new materials and on materials design for the environment.

3 cr.

Copyright © 2004-2005, The American University in Cairo

[Home]
[Physics Courses (PHYS)]
Physics Courses (PHYS)
AUC Banner
cat04

Main Page

Table of Contents


 

General Information

Undergraduate Studies

Graduate Studies

Research

Continuing Education & Training Programs

Appendix: Personnel & Enrollment

 

 

 

 

 

 

 

doctorate2 cafe2 study3
gradstud
 Physics Courses (PHYS)
SPNavLeft SPNavRight SPNavUp

PHYS

550

SPNavLeft SPNavRight SPNavUp

Advanced Materials and Techniques

Prerequisites: PHYS 322L, PHYS 323L. Offered in spring.
An integrated laboratory course teaching students modern preparative solid state techniques (e.g. Sol-Gel method, Bridgman technique) and how to tailor the properties and performance of a material by modifications of its stoichiometry, the amount of doping, and the structural aspects. Students will prepare samples of materials with current interest (e.g. glasses, complex oxides, sinter ceramics, certain important single crystals, electronic materials, etc.). The structure, possible phase transitions, and their influence on materials properties are examined by advanced techniques (e.g. optical and electron microscopy, X-ray diffraction, TGA, DSC). The applicability of the materials for magnetic, electronic, and optical purposes will also be investigated. Emphasis is laid on studying new materials and on materials design for the environment.

3 cr.

Copyright © 2004-2005, The American University in Cairo

[Home]
[Physics Courses (PHYS)]