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info [2014/05/23 13:48] janettateinfo [2019/03/04 11:02] janettate
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-====== General Information for PH575, Spring 2014 ======+====== General Information for PH575, Spring 2019 ======
  
 This course provides an introduction to the physics of condensed matter for graduate students in physics, chemistry and engineering areas in which materials science is important. Senior undergraduates in physics will also find the course accessible. Topics include the theoretical basis of the electronic structure of solids, viewed from the real-space perspective of the interactions between atoms; the free electron description and physical properties of electrically conducting materials; semiconductors; optical properties of materials; the origins of magnetism; lattice excitations (phonons), and nanoscience.  The goal is to understand the concepts underlying modern condensed matter physics and to become familiar with some of the experimental and computational techniques available to test those concepts. A major project is the computation of the band structure of a real material using density functional theory. This course provides an introduction to the physics of condensed matter for graduate students in physics, chemistry and engineering areas in which materials science is important. Senior undergraduates in physics will also find the course accessible. Topics include the theoretical basis of the electronic structure of solids, viewed from the real-space perspective of the interactions between atoms; the free electron description and physical properties of electrically conducting materials; semiconductors; optical properties of materials; the origins of magnetism; lattice excitations (phonons), and nanoscience.  The goal is to understand the concepts underlying modern condensed matter physics and to become familiar with some of the experimental and computational techniques available to test those concepts. A major project is the computation of the band structure of a real material using density functional theory.
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 ===== Instructors ===== ===== Instructors =====
   * [[http://www.physics.oregonstate.edu/~tate/|Prof. Janet Tate]], Weniger 485; 737-1700; tate at physics.oregonstate.edu   * [[http://www.physics.oregonstate.edu/~tate/|Prof. Janet Tate]], Weniger 485; 737-1700; tate at physics.oregonstate.edu
-  * [[http://www.physics.oregonstate.edu/~tate/schedule.html|Office hours:]] Wednesdays 10-11; Thursdays 1:15-2:15; or by appointment  +  * [[http://www.physics.oregonstate.edu/~tate/schedule.html|Office hours (to be confirmed):]] Wednesdays 10-11; Thursdays 1:30-2:30; or by appointment  
-  * TA: Daniel Gruss +  * TA: Mitchell Senger (sengermi at onid.oregonstate.edu)
-  * Jeff Schulte, schuljef at onid.orst.edu, sets up computer accounts and deals with issues related to Wien 2K, Flair and gem +
  
 ===== Blackboard for email list & grades: ===== ===== Blackboard for email list & grades: =====
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     * (H) Harrison, W.A., Electronic Structure and the properties of solids,  QC176.8.E4 H37  (Graduate level)     * (H) Harrison, W.A., Electronic Structure and the properties of solids,  QC176.8.E4 H37  (Graduate level)
     * (K)  Kittel, C., Introduction to Solid State Physics, 7th ed, QC176 .K5 1996     * (K)  Kittel, C., Introduction to Solid State Physics, 7th ed, QC176 .K5 1996
-    * (M) Marder, M. P., Condensed Matter Physics (graduate, more modern than AM)+    * (M) Marder, M. P., Condensed Matter Physics, QC173.454 .M37 2000 (graduate, more modern than AM; 2010 edition not at OSU)
     * (YV) Yves, J and Voltatron, F (translated by J. Burdett), An introduction to molecular orbitals, QD461 .J4313 1993       * (YV) Yves, J and Voltatron, F (translated by J. Burdett), An introduction to molecular orbitals, QD461 .J4313 1993  
     * (R) Rosenberg, H., The Solid State, QC176 .R67 1988 (Undergraduate level)     * (R) Rosenberg, H., The Solid State, QC176 .R67 1988 (Undergraduate level)

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