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worksheets [2009/07/03 12:40] – tate | worksheets [2020/03/06 09:12] (current) – external edit 127.0.0.1 |
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====== Worksheets, handouts, articles ====== | ====== Worksheets, handouts, articles ====== |
===== Handouts ===== | ===== Handouts ===== |
* {{basic_math.pdf|Basic mathematical knowledge}} reguired in this course. | * {{handout1_math.pdf|Basic mathematical knowledge}} reguired in this course. Read for 4/1 class. |
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* {{basic_qm.pdf|Summary of quantum mechanics}} used in this course. This is a summary, with no examples. The class notes will provide more examples. | * {{handout2_qm.pdf|Summary of quantum mechanics}} used in this course. This is a summary, with just a few examples. Read for 4/1 class. |
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| * {{:h_atom_wave_functions.pdf|H atom wave functions}} with complex spherical harmonics. |
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| /* This text between the slash * and * slash is hidden*/ |
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===== Worksheets ===== | ===== Worksheets ===== |
* {{:lcao-nt.pdf|Schönberger's CNT LCAO excercise}} | *{{:l6_worksheet.pdf|MO coefficients worksheet}} (week 3) |
| *{{:triangular_lattice.pdf|Dispersion triangular lattice}} (week 3) |
| *{{:lattice_activities.pdf|Crystal lattice worksheet}} (week 5) |
| *{{:m_quiz.pptx|m* worksheet}} (week 5) |
| *{{:lcao-nt.pdf|Schönberger's graphene & CNT LCAO excercise}} (week 9) |
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===== Articles ===== | ===== Articles ===== |
| * {{:cohen_quantum_theory_of_solids_mrs2015.pdf|Article by Marvin Cohen}} describing the development of modern methods to compute the energy and properties of solids. Very readable and accessible with few equations. (MRS Bulletin 40 (2015) p.522) For week 5 or so. |
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| * Roald Hoffmann, How chemistry and physics meet in the solid state, Angew. Chem. Int. Ed. Engl. 26 (1987) 846-878 [[http://onlinelibrary.wiley.com/doi/10.1002/anie.198708461/abstract/abstract|Link via Wiley online Library]]. Have to access from an osu domain. |
| (a comprehensive look at the first part of this course from a chemist's perspective) |
| * Roald Hoffmann, A chemical and theoretical way to look at bonding on surfaces, Rev. Mod. Phys. 60 (1988) 601-628 [[http://rmp.aps.org.proxy.library.oregonstate.edu/abstract/RMP/v60/i3/p601_1|Link via OSU Library]] |
| (beyond the scope of this course, but a nice extension of the above to surfaces) |
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*{{:hosono_JACS_FeAS_sc.pdf|FeAs-based superconductors}} discovered 2008 | *{{:hosono_JACS_FeAS_sc.pdf|FeAs-based superconductors}} discovered 2008 |
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* {{:bloch_oscillations_atoms_in_optical_potential.pdf|Bloch oscillations}} article in Phys. Rev. Lett. (1996) | *{{:bloch_oscillations_atoms_in_optical_potential.pdf|Bloch oscillations-optical analogue}} article in Phys. Rev. Lett. (1996) |
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| * {{:hartmann04.pdf|Bloch oscillations-Hartman}} - general discussion |
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| * {{:0268-1242_13_3_003.pdf|Bloch oscillations-superlattice}} |
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*{{:nmat1849_geim_graphene_2007_progress.pdf|graphene}} as described by Geim in Nature Materials (2007) | *{{:nmat1849_geim_graphene_2007_progress.pdf|graphene}} as described by Geim in Nature Materials (2007) |
*{{:avouris_review_nnano.2007.300.pdf|graphene & CNT electronics}} as described by Avouris in Nature Nanotechnology (2007) | *{{:avouris_review_nnano.2007.300.pdf|graphene & CNT electronics}} as described by Avouris in Nature Nanotechnology (2007) |
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*{{:matulis_ajp77_2009_595graphene_dirac_klein.pdf|Graphene & the Dirac Equation}} Matulis, American Journal of Physics (2009) | *{{:matulis_ajp77_2009_595graphene_dirac_klein.pdf|Graphene & the Dirac Equation}} Matulis, American Journal of Physics (2009). A more sophisticated approach than we use - nice for physicists. |
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