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PHY 752 Solid State Physics

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Presentation on theme: "PHY 752 Solid State Physics"— Presentation transcript:

1 PHY 752 Solid State Physics
11-11:50 AM MWF Olin 107 Plan for Lecture 33: The Hubbard model Analysis of solution for a 2 site system Hartree-Fock approximation Extension to linear chain 4/17/2015 PHY 752 Spring Lecture 33

2 4/17/2015 PHY 752 Spring Lecture 33

3 The Hubbard Hamiltonian:
single particle contribution two particle contribution 4/17/2015 PHY 752 Spring Lecture 33

4 Possible configurations on a single site
4/17/2015 PHY 752 Spring Lecture 33

5 Hubbard model -- continued
t represents electron “hopping” between sites, preserving spin U represents electron repulsion on a single site 4/17/2015 PHY 752 Spring Lecture 33

6 Two-site Hubbard model
4/17/2015 PHY 752 Spring Lecture 33

7 Two-site Hubbard model
4/17/2015 PHY 752 Spring Lecture 33

8 Eigenvalues of the Hubbard model
4/17/2015 PHY 752 Spring Lecture 33

9 Two-site Hubbard model
Ground state of the two-site Hubbard model Single particle limit (U 0) 4/17/2015 PHY 752 Spring Lecture 33

10 Two-site Hubbard model Single particle limit (U 0)
Full spectrum for spin 0 eigenstates Single particle picture: +t E1 E2 E3 -t 4/17/2015 PHY 752 Spring Lecture 33

11 Two-site Hubbard model -- Hartree-Fock approximation
4/17/2015 PHY 752 Spring Lecture 33

12 Two-site Hubbard model -- Hartree-Fock approximation
Variational search for lower energy solutions 4/17/2015 PHY 752 Spring Lecture 33

13 Ground state energy for 2-site Hubbard model
Hartree Fock high spin exact 4/17/2015 PHY 752 Spring Lecture 33

14 Two-site Hubbard model -- continued
Ground state of the two-site Hubbard model Isolated particle limit (t 0) 4/17/2015 PHY 752 Spring Lecture 33

15 One-dimensional Hubbard chain
4/17/2015 PHY 752 Spring Lecture 33

16 Approximate solutions in terms of single particle states; “broken symmetry” Hartree-Fock type solutions 4/17/2015 PHY 752 Spring Lecture 33

17 4/17/2015 PHY 752 Spring Lecture 33

18 In the following slides, u represents U/t:
4/17/2015 PHY 752 Spring Lecture 33

19 ek = -2 cos(ka) ek k -p/a -kF kF p/a 4/17/2015
PHY 752 Spring Lecture 33

20 4/17/2015 PHY 752 Spring Lecture 33

21 4/17/2015 PHY 752 Spring Lecture 33

22 4/17/2015 PHY 752 Spring Lecture 33

23 4/17/2015 PHY 752 Spring Lecture 33

24 Antiferromagnetic form:
(x cos qk) For spin ­ (x sin qk) (x cos qk) For spin ¯ (x sin qk) 4/17/2015 PHY 752 Spring Lecture 33

25 4/17/2015 PHY 752 Spring Lecture 33

26 Solutions to AHF equation for spin magnetization m as a function of u
4/17/2015 PHY 752 Spring Lecture 33

27 4/17/2015 PHY 752 Spring Lecture 33

28 SDW form: a For spin ­ (x cos qk) For spin ¯ (x sin qk) 4/17/2015
PHY 752 Spring Lecture 33

29 4/17/2015 PHY 752 Spring Lecture 33

30 4/17/2015 PHY 752 Spring Lecture 33

31 4/17/2015 PHY 752 Spring Lecture 33

32 4/17/2015 PHY 752 Spring Lecture 33

33 Single partical spectra
4/17/2015 PHY 752 Spring Lecture 33

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