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--- papers [2011/04/29 16:48] – tate
+++ papers [2011/05/02 14:42] – tate
@@ Line 20: / Line 20: @@
   * study a family of materials
   * go beyond the standard "default clicks" in Wien to explore something you found interesting
-  * choose a particularly challenging material (not recommended because this is often an all-or-nothing proposition).
+  * choose a more challenging material (not recommended because this is often an all-or-nothing proposition).
 === Collaboration or no? ===
@@ Line 29: / Line 29: @@
 Please do not perform the other person's calculation.  Help him or her with specific calculational problems, but don't define the goals of the assignment for the other person.
-Don't work together to construct your posters - the temptation to produce the same format is very strong.  This is your poster.  But tell each where to buy poster materials or how to get access to good printing etc.
+Don't work together to construct your posters - the temptation to produce the same format is very strong.  This is your poster.  But critique someone's poster and offer advice if asked. Tell each where to buy poster materials or how to get access to good printing //etc//.
 === Length, etc. ===
@@ Line 49: / Line 49: @@
 Q.  How do I know my band structure is right?
-A.  Look in the literature - someone else is bound to have calculated it.  Results will vary a bit with different methods used.
+A.  Look in the literature - someone else is bound to have calculated it.  Results will vary a bit with different methods used.  Remember to reference others' work in your report.
 Q.  My material has 80 atoms per unit cell - that OK?
@@ Line 58: / Line 58: @@
 A.  No, it's best to stay away from these because you will need a much larger unit cell.  This is because if you replace say 1% of Si with P, you will need 100 unit cells (99 with Si and 1 with P) to define the basic unit.   Refer to the question above.
+Q. Can I study graphene?
+A.  No.  The 2-d nature of graphene requires special symmetry that is too complex for a beginning project.
+Q. Can I study conductivity as a function of temperature?
+A.  No.  All calculations are inherently T=0 calculations.  There are no excitations of the system included.
+Q. Can I study magnetic properties?
+A.  There is an option to include spin polarization, which should allow you to determine whether a material is magnetic or not in its ground state.
+====== Class projects ======
+===== Altschul, Emmeline =====
+audit - no project
+===== Ansell, Troy =====
+PZT?
+===== Dearmon, Howard =====
+Carbon - diamond and graphite
+===== Gatimu, Alvin =====
+audit - no project
+===== Gifford, Jessica =====
+SiC including optical propoerties
+===== Girgel, Ionut =====
+GaN, AlN, InN, optoelectronics
+===== Grollman, Rebecca =====
+GaAs and related solar absorbers
+===== Gross, Jonah =====
+Fe, Co, and Ni magnetic materials
+===== Gruss, Daniel =====
+NbN and related superconductors and IR detectors
+===== Krebs, Eric =====
+Ag, and other metals?
+===== Lampert, Nicholas =====
+InSb, InMnSb?
+===== Landau, Nicholas =====
+ Al2O3, SiO2
+===== Laurita-Plankis, Geneva =====
+AgSbO3 and related transparent conducting oxides and photocatalytic materials
+===== Maizy, Louis =====
+zinc telluride
+===== Oostman, Matthew =====
+TiO2 - rutile & anatase
+===== Paul, Michael =====
+===== Saltzgaber, Grant =====
+HgTe - topological insulator
+===== Schulte, Jeffery =====
+SiO2
+===== Smith, Sean =====
+ZnO, SnO2, Zn2SnO4 transparent conductors
+===== Waite, Rachel =====
+BiCuOSe and related p-type semiconductors

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