====== PH 575 Introduction to Solid State Physics, 3 credits, Spring 2019 ====== * This website is http://physics.oregonstate.edu/~tatej/COURSES/ph575 * Lecture topics are firm about one week out - order may change. ===== Announcements ===== === 5/20/2019 === Today is [[http://www.worldmetrologyday.org/|World Metrology Day]], and we have a new kilogram standard! Read about it at the [[https://www.nist.gov/si-redefinition|National Institute of Standards and Technology (NIST)]] site. Here is a [[https://www.vox.com/science-and-health/2019/5/17/18627757/kilogram-redefined-world-metrology-day-explained|Vox article]] that does a reasonable job of discussing it for the layperson (but note the error in the discussion of the units of Planck's constant!). === 5/20/2019 === Some solid state physics in the news - ice-XVIII. [[https://physicstoday.scitation.org/do/10.1063/PT.6.1.20190517a/full/|https://physicstoday.scitation.org/do/10.1063/PT.6.1.20190517a/full/]] === 5/6/2019 === The final exam will be held at the advertised time of Thursday June 13 in Weniger 304. Please bring a prepared sheet of notes, one side of one 8.5 x 11" paper. [[announcements|Old Announcements]] ===== Week 1 ===== /* comment */ ^Day^^Topic^Reading^Assignments| |{{:l1.pdf|1}}|Mon 4/1|Review of complex numbers (PH grad students taking comp exam may request a repeat)|[[:worksheets|Worksheets & articles]] |{{:l1_quiz.pptx|Quiz_1}}| |{{:l2.pdf|2}}|Wed 4/3|General discussion of course & admin. Set up key questions: How electrons are distributed in space, energy and momentum. Starting point: Atomic orbitals of hydrogen atom.|Sutton Ch1, pp. 9-20| {{:hw1.pdf|HW#1}} | |see L1 |Fri 4/5|Review of QM operators, bras, kets; finish Quiz 1; Linear superpositions of orbitals. Example: Y11,Y10,Y1-1; px,py,pz, and representing Lz|- | Browse the [[http://winter.group.shef.ac.uk/orbitron/|"The Orbitron"]] site | ===== Week 2 ===== ^Day^^Topic^Reading^Assignments| |{{:l4.pdf|4}}|Mon 4/8| Homonuclear diatomic molecule. Linear combinations of atomic orbitals, matrix representation, on-site energy, hopping energy, overlap integral.|S: Ch. 2, pp. 25-35| - | |5|Wed 4/10|Review homonuclear diatomic molecule. Heteronuclear diatomic molecule. Sigma and pi bonds| S: Ch. 2, pp. 25-35| hw1 due; {{:hw2.pdf|HW#2}} | |{{:l6.pdf|6}}|Fri 4/12| Homonuclear chain, energies, molecular orbitals|S: Ch. 3, pp. 38-52| - | ===== Week 3 ===== ^Day^^Topic^Reading^Assignments| |7|Mon 4/15 &16|Homonuclear chain, 1-d Brillioun zone, dispersion relation.| S: Ch. 3, pp. 38-52, (K:Ch2);(A&M:Ch5)| {{:l6_worksheet.pdf|MO coefficients worksheet}} | |{{:l7.pdf|8}}|Wed 4/17|k-space; 2D & 3D square lattice dispersion |Ch. 4, pp. 74-80 | {{:triangular_lattice.pdf|Dispersion triangular lattice}} | |9|Fri 4/19| 2&3D cont'd, Bloch functions, Fermi energy, density of states 1,2,3-D| S: Ch 3 pp.47-49; p 55, Ch.4 pp 88-92|hw 2 due; {{:hw3.pdf|HW #3}} | ===== Week 4 ===== ^Day^^Topic^Reading^Assignments| |{{:l8.pdf|10}}|Mon 4/22|Density of States 1D |S: Ch5, pp. 58-72, pp. 88-92| - | |11|Wed 4/24|Density of States, 2D |S: Ch5, pp. 58-72, pp. 88-92;| - | |12|Fri 4/26|Open MX work session| {{:openmx_tutorial_ph575_w2019_20190315.pdf|OpenMX tutorial}}| - | ===== Week 5 ===== ^Day^^Topic^Reading^Assignments| |{{l9.pdf|13}}|Mon 4/29|Basic crystallography|K: Ch.1-2 (not all!); S: pp. 77-80| {{:lattice_activities.pdf|Crystal lattice worksheet}} | |{{:l10.pdf|14}}|Wed 5/1|Multiple bands, velocity, Effective mass; {{:m_quiz.pptx|m* worksheet}}|S: Ch5, pp. 101-111; S: Ch5, pp. 80-86| hw 3 due {{hw4.pdf|HW #4}} | |15|Fri 5/3|Midterm 1| All material up to and including week 4 | - | ===== Week 6 ===== ^Day^^Topic^Reading^Assignments| |16|Mon 5/6|Review midterm. Doping in Si (Si:P, Si:B), electrons, holes | S: Ch5, pp. 80-86 | - | |17|Wed 5/8|Complete electrons, holes. Free electron theory, electronic properties| S: Ch. 8, pp. 158-162, K: Ch. 6 | - | |{{:l13.pdf|18}}|Fri 5/10|Free electron theory, optical properties| assign reading | hw 4 due;{{:hw5.pdf|Hwk 5}} | ===== Week 7 ===== ^Day^^Topic^Reading^Assignments| |19|Mon 5/13|Open MX work session| - | - | |20|Wed 5/15|Free electrons, specific heat|K: Ch 6. pp. 141-147| - | |{{:l17.pdf|21}}|Fri 5/17|Free electron theory, plasma frequency|K: Ch 14 pp. 395-401| - | ===== Week 8 ===== ^Day^^Topic^Reading^Assignments| |{{:l20.pdf|22}}|Mon 5/13|Semiconductors, optical properties| K: Ch8 pp.187-190, Ch15 pp.435-444 | - | |{{:l19.pdf|23a}} & {{:l14.pdf|23b}}|Wed 5/22|Semiconductors, electrical properties| K: 205-214; AM: 577-582 | Homework 5 due | |24|Fri 5/24| Open MX work session & poster discussion | - | - | ===== Week 9 ===== ^Day^^Topic^Reading^Assignments| |25|Mon 5/27| Memorial Day - No class | - | - |K: Ch4&5; AM:Ch 22&23 |26|Wed 5/29| 2019 POSTER SESSION | - | - | |{{:l27.pdf|27}}|Fri 5/31| Graphene | K: Ch 18; {{:lcao-nt.pdf|graphene}} | - | ===== Week 10 ===== ^Day^^Topic^Reading^Assignments| |28|Mon 6/3|Graphene | |- | |{{:l24.pdf|29}}|Wed 6/5|Phonons|read notes, explore websites under "online resources/phonons" (K: Ch4&5; AM:Ch 22&23) | Paper due | |{{review.pdf|30}}|Fri 6/7| Review | K: Ch4&5; AM:Ch 22&23 | | ===== Week 11 ===== ^Day^^Topic^Time^Place^Assignments| |31|06/13/2019|[[https://registrar.oregonstate.edu/final-examination-schedule-group-exams-class-meeting-hours|final exam]]|6pm| Venue: Weniger 304| all material |