List of papers for the course Phys-312

  1. Özgür Temmuz Çelik – Eigensolution of the Coulomb Hamiltonian via supersymmetry, A. Valance and T. J. Morgan, H. Bergeron, American Journal of Physics 58, 487 (1990) [link]
  2. Shape invariance and the SWKB series, D.T.Barclay, C.J.Maxwell, Physics Letters A 157.6-7 (1991): 357-360 [link] (see also arXiv:quant-ph/9706060)
  3. On the Bose – Einstein condensate partition function for an ideal gas, Evgenii D. Trifonov and Sergei N. Zagoulaev, 2010 Phys.-Usp. 53 83 [link]
  4. Submerged Landau jet: exact solutions, their meaning and application, Goran I. Broman and Oleg V. Rudenko, 2010 Phys.-Usp. 53 91 [link]
  5. Brusselator — an abstract chemical reaction?, Anastasiya I Lavrova, E B Postnikov, and Yurii M Romanovsky, 2009 Phys.-Usp. 52 1239 [link]
  6. Muhammed Yusuf Efe – Relativistic Thermodynamics, Herbert Callen, and Gerald Horwitz, American Journal of Physics 39, 938 (1971) [link]
  7. Cosmological particle production and the precision of the WKB approximation, Sergei Winitzki, Phys.Rev. D72 (2005) 104011[arXiv:gr-qc/0510001]
  8. Yakup Emre Şahin – Maslov-WKB theory for supersymmetric hamiltonians, B. Eckhardt, Physics Letters B 168.3 (1986): 245-247 [link]
  9. New way to compute Maslov indices, Littlejohn, Robert G., and Jonathan M. Robbins, Physical Review A 36.6 (1987): 2953 [link]
  10. Mehmet Hilmi Dündar – Nonintegral Maslov indices, Friedrich, H., and J. Trost, Physical Review A 54.2 (1996): 1136 [link]
  11. Mehmet Batu Bayındırlı – On the problem of above-barrier reflection of high-energy particles, Pokrovskii, V. L., and I. M. Khalatnikov, Soviet Phys. JETP 13 (1961): 1207-1210 [pdf]
  12. Localization problem in one dimension: Mapping and escape, M. Kohmoto, L. P. Kadanoff, and C. Tang, Physical Review Letters 50 no. 23, (1983) 1870 []
  13. Wannier functions in one-dimensional disordered systems: Application to fractionally charged solitons, S. Kivelson, Phys. Rev. B 26 (1982) 4269-4277 []
  14. Obtaining the neutrino mixing matrix with the tetrahedral group, A. Zee, Phys. Lett. B 630 (2005) 58-67
  15. Hidden symmetries of the Nambu-Goto action, M.Duff, Phys. Lett. B 641 (2006) 335-337, arXiv:hep-th/0602160
  16. Solving the one-dimensional Ising chain via mathematical induction: an intuitive approach to the transfer matrix, European Journal of Physics 40 no. 6, (Sep, 2019) 065102
  17. Perturbative/nonperturbative aspects of Bloch electrons in a honeycomb lattice, Y. Hatsuda, PTEP 2018 no. 9, (2018) 093A01, arXiv:1712.04012 [hep-th]
  18. Sena Ergişi – Modification of the JWKB approximation for finding bound state energies, Bruev, A. S., Physics Letters A 161.5 (1992): 407-410 [link]
  19. Divergence-Free WKB Method, Tadanori Hyouguchi, Satoshi Adachi, and Masahito Ueda, Phys. Rev. Lett. 88, 170404 (2002) [link]
  20. Solitons in Polyacetylene, W. P. Su, J. R. Schrieffer, and A. J. Heeger, Phys. Rev. Lett. 42, 1698 (1979) [link]
  21. Combinatorial approach to exactly solve the 1D Ising model, Swarnadeep Seth, 2017 Eur. J. Phys. 38 015104 [link]
  22. Berry’s phase for energy bands in solids, Zak J. Physical review letters 62.23 (1989): 2747 [pdf]
  23. Statistical mechanics of one-dimensional Ginzburg-Landau fields, Scalapino, Douglas J., M. Sears, and Richard A. Ferrell, Physical Review B 6.9 (1972): 3409 [pdf]
  24. Ege Aktener – A combinatorial solution of the two-dimensional Ising model, M Kac, JC Ward, Physical Review, 1952 [pdf]
  25. Combinatorial aspects of the Ising model for ferromagnetism. I. A conjecture of Feynman on paths and graphs, Sherman, S., Journal of Mathematical Physics, 1(3), pp.202-217 (1960) [link]
  26. Ege Çoban – Zero modes and the edge states of the honeycomb lattice, Mahito Kohmoto, Yasumasa Hasegawa, Phys. Rev. B 76, 205402 (2007) arXiv:cond-mat/0702162
  27. Oğuz Öner – Microscopic definitions of anyon data, Kyle Kawagoe, Michael Levin, Phys. Rev. B 101, 115113 (2020), arXiv:1910.11353