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1/28/2015PHY 7r2 Spring 2015 -- Lecture 61 PHY 752 Solid State Physics 11-11:50 AM MWF Olin 107 Plan for Lecture 6: Reading: Chapter 6 in MPM; Electronic.

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Presentation on theme: "1/28/2015PHY 7r2 Spring 2015 -- Lecture 61 PHY 752 Solid State Physics 11-11:50 AM MWF Olin 107 Plan for Lecture 6: Reading: Chapter 6 in MPM; Electronic."— Presentation transcript:

1 1/28/2015PHY 7r2 Spring 2015 -- Lecture 61 PHY 752 Solid State Physics 11-11:50 AM MWF Olin 107 Plan for Lecture 6: Reading: Chapter 6 in MPM; Electronic Structure 1.Independent electron models 2.Free electron gas 3.Densities of states 4.Statistical mechanics of non-interacting electrons

2 1/28/2015PHY 7r2 Spring 2015 -- Lecture 62

3 1/28/2015PHY 7r2 Spring 2015 -- Lecture 63

4 1/28/2015PHY 7r2 Spring 2015 -- Lecture 64 Born-Oppenheimer approximation Born & Huang, Dynamical Theory of Crystal Lattices, Oxford (1954) Electronic coordinates Atomic coordinates Quantum Theory of materials

5 1/28/2015PHY 7r2 Spring 2015 -- Lecture 65 Quantum Theory of materials -- continued Effective nuclear interaction provided by electrons (Often treated classically)

6 1/28/2015PHY 7r2 Spring 2015 -- Lecture 66 Terms neglected in Born-Oppenheimer approximation

7 1/28/2015PHY 7r2 Spring 2015 -- Lecture 67 First consider electronic Hamiltonian Replace by “jellium” Independent electron contributions

8 1/28/2015PHY 7r2 Spring 2015 -- Lecture 68 Treatment of each electron (Fermi particle) in the jellium model Note: This and following slides taken from Marder’s text

9 1/28/2015PHY 7r2 Spring 2015 -- Lecture 69 Enumerating the independent electron states by summing over k:

10 1/28/2015PHY 7r2 Spring 2015 -- Lecture 610 Enumerating the independent electron states by summing over k – continued: Note: Each spatial state has a spin degeneracy of 2.

11 1/28/2015PHY 7r2 Spring 2015 -- Lecture 611 Enumerating the independent electron states by summing over k – continued for :

12 1/28/2015PHY 7r2 Spring 2015 -- Lecture 612 Enumerating the independent electron states by summing over k – continued for :

13 1/28/2015PHY 7r2 Spring 2015 -- Lecture 613 Enumerating the independent electron states by summing over k – continued for :

14 1/28/2015PHY 7r2 Spring 2015 -- Lecture 614 Note: Previous results are special to a 3-dimensional jellium system where the electronic states are related to the wavevectors according to For your homework problem, you will consider a 2- dimensional jellium system with two different dispersions: E(k)=Xk 2 and E(k)=Xk.

15 1/28/2015PHY 7r2 Spring 2015 -- Lecture 615 Statistical mechanics of free Fermi gas in terms of “grand” partition function

16 1/28/2015PHY 7r2 Spring 2015 -- Lecture 616 “Grand” potential

17 1/28/2015PHY 7r2 Spring 2015 -- Lecture 617

18 1/28/2015PHY 7r2 Spring 2015 -- Lecture 618

19 1/28/2015PHY 7r2 Spring 2015 -- Lecture 619 Jellium analysis of some metals

20 1/28/2015PHY 7r2 Spring 2015 -- Lecture 620 How well does the jellium model work – analysis of electronic contribution to specific heat First consider the following trick:

21 1/28/2015PHY 7r2 Spring 2015 -- Lecture 621

22 1/28/2015PHY 7r2 Spring 2015 -- Lecture 622

23 1/28/2015PHY 7r2 Spring 2015 -- Lecture 623

24 1/28/2015PHY 7r2 Spring 2015 -- Lecture 624 Specific heat table from Marder’s text:

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