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1. V. Ivrii, Eigenvalue asymptotics for Schrödinger and Dirac operators withconstant magnetic field and with electric potential decreasing at infinity, In: Journées “Equations aux dérivées partielles”, St.Jean-de-Monts, (1991), SMF, Exposé X.

2. S. I. Boyarchenko, S. Z. Levendorskii, Precise spectral asymptotics for perturbed magnetic Schrödinger operator, J. Math. Pures Appl. 76 (1997), 211–236.

3. V. Ivrii, Microlocal analysis and precise spectral asymptotics, Springer, Berlin-New York, Heidelberg, 1998.

4. M. Melgaard, G. Rozenblum, Eigenvalue asymptotics for weakly perturbed Dirac and Schrödinger operators with constant magnetic fields of full rank, Commun. P.D.E. 28 (2003), 697–736.

5. S. Shirai, Eigenvalue asymptotics for the Schrödinger operator with steplike magnetic field and slowly decreasing electric potential, Publ. RIMS 39 (2003), 297–330.

6. C. Ferrari, Aspects of two dimensional magnetic Schrödinger operators: quantum Hall systems and magnetic Stark resonances, Ph.D. Thesis, Institut de théorie des phénomènes physiques, Ecole Polytechnique Fédérale de Lausanne, 2003.

7. M. Dimassi, V. Petkov, Semiclassical resonances and trace formulae for non-semi-bounded Hamiltonians, Séminaire sur les Equations aux Dérivées Partielles, 2003–2004, Exp. No. X, 12 pp., Ecole Polytech., Palaiseau, 2004.

8. C. Guillarmou, Résonances sur les variétés asymptotiquement hyperboliques, Thèse de Doctorat, Université de Nantes, 2004.

9. C. Ferrari, H. Kovarik, Resonance width in crossed electric and magnetic field, J. Phys. A 37 (2004), 7671–7697.

10. M. Dimassi, V. Petkov, Resonances for magnetic Stark Haniltonians in two-dimensional case, Int. Math. Res. Not. 2004 (2004), 4147–4179.

11. S. Shirai, Eigenvalue asymptotics for the Maass Hamiltonian with decreasing electric potentials, Publ. RIMS 41 (2005), 435–457.

12. G. Rozenblum, M. Melgaard, Schrödinger operators with singular potentials, In: Stationary partial differential equations. Vol. II, 407–517 Handboook of Differential Equations, Elsevier/North-Holland, Amsterdam, 2005.

13. N. Filonov, A. Pushnitski, Spectral asymptotics of Pauli operators and orthogonal polynomials in complex domains, Commun. Math. Phys. 264 (2006), 759–772.

14. G. Rozenblum, G. Tashchiyan, On the spectral properties of the perturbed Landau Hamiltonian, Commun. P.D.E. 33 (2008), 1048–1081.

15. G. Rozenblum, A. V. Sobolev, Discrete spectrum distribution of the Landau operator perturbed by an expanding electric potential, In: Spectral Theory of Differential Operators: M. Sh. Birman 80th Anniversary Collection, AMS Translations, Series 2, 225 (2008), 169–190.

16. M. Persson, Spectral properties of quantum mechanical operators with magnetic field, Thesis for the Degree of Doctor of Philosophy, Chalmers University of Technology and Gothenburg University, Göteborg, 2008.

17. A. Khochman, Résonances et diffusion pour les opérateurs de Dirac et de Schrödinger magnétique, Thèse de Doctorat, Université Bordeaux 1, 2008.

18. M. Persson, Eigenvalue asymptotics of the even-dimensional exterior Landau-Neumann Hamiltonian, Adv. Math. Phys. 2009 (2009), Article ID 873704, 15 pp.

19. A. Khochman, Resonances and spectral shift function for a magnetic Schrödinger operator, J. Math. Phys. 50 (2009) 043507, 16 pp.

20. G. Rozenblum, G. Tashchiyan, On the spectral properties of the Landau Hamiltonian perturbed by a moderately decaying magnetic field, In: Spectral and scattering theory for quantum magnetic systems. Proceedings of the conference, CIRM, 2008. Providence, RI: American Mathematical Society (AMS), Contemporary Mathematics 500, 169–186 (2009).

21. A. Pushnitski, G. Rozenblum, On the spectrum of Bargmann-Toeplitz operators with symbols of a variable sign, J. Anal. Math. 114 (2011), 317–340.

22.  P. Miranda, Spectral Properties of Magnetic Quantum Hamiltonians, Ph. D. Thesis, Universidad de Chile, Santiago de Chile, 2011.

23. A. T. Duong, Spectral asymptotics for two-dimensional Schrödinger operators with strong magnetic fields, Methods Appl. Anal. 19 (2012), 77–98.

24. A. T. Duong, Théories spectrale et de résonances pour l’opérateur de Schrödinger avec champ magnétique, Thèse de Doctorat, Université de Paris 13, 2013.

25. D. Sambou, Accumulation spectrale pour les Hamiltoniens quantiques magnétiques, Thèse de Doctorat, Université de Bordeaux 1, 2013.

26. D. Sambou, Lieb-Thirring type inequalities for non-self-adjoint perturbations of magnetic Schrödinger operators, J. Funct. Anal. 266 (2014), 5016–5044.

27. M. Dimassi, A. T. Duong, Trace asymptotics formula for the Schrödinger operators with constant magnetic fields, J. Math. Anal. Appl. 416 (2014), 427–448.

28. V. Bruneau, N. Popoff, On the ground state energy of the Laplacian with a magnetic field created by a rectilinear current, J. Funct. Anal. 268 (2015), 1277–1307.

29. Y. Sbai, Analyse semi-classique des opérateurs périodiques perturbés, Thèse de Doctorat, Institut de Mathématiques de Bordeaux, 2015.

30. T. Lungenstrass, Spectral Properties of Magnetic Quantum Systems, Ph. D. Thesis, Pontificia Universidad Católica de Chile, Santiago de Chile, 2015.

31. D. Barseghyan, P. Exner, H. Kovark, T. Weidl, Semiclassical bounds in magnetic bottles, Rev. Math. Phys. 28 (2016), 1650002, 29 pp.

32. P. Miranda, Eigenvalue asymptotics for a Schrödinger operator with non-constant magnetic field along one direction, Ann. H. Poincaré, 17 (2016), 1713–1736.

33. V. Bruneau, D. Sambou, Spectral clusters for magnetic exterior problems, In: Proceedings of the Conference on Spectral Theory and Mathematical Physics, Santiago de Chile, 2014; Operator Theory: Advances and Applications, 254, 57-70, Springer International Publishing, 2016.

34. D. Sambou, Counting function of magnetic eigenvalues for non-definite sign perturbations, In: Proceedings of the Conference on Spectral Theory and Mathematical Physics, Santiago de Chile, 2014; Operator Theory: Advances and Applications, 254, 205-221, Springer International Publishing, 2016.

35. V. Bruneau, D. Sambou, Counting function of magnetic resonances for exterior problems, Annales Henri Poincaré, 17 (2016), 3443–3471.

36. J.-C. Cuenin, Sharp spectral estimates for the perturbed Landau Hamiltonian with Lp potentials, Integr. Equ. Oper. Theory 88 (2017), 127-141.

37. D. Sambou, On eigenvalue accumulation for non-self-adjoint magnetic operators, Journal de Mathématiques Pures et Appliquées 108 (2017), 306–332. 

38. M. Dimassi, A. T. Duong, Semi-classical asymptotics for the Schrödinger operators with constant magnetic fields, In: PDE's, dispersion, scattering theory and control theory, 45-58, Sémin. Congr., 30, Soc. Math. France, Paris, 2017.

39. V. Bruneau, K. Pankrashkin, N. Popoff, Eigenvalue counting function for Robin Laplacians on conical domains, J. Geom. Anal., 28 (2018), 123–151.  

40. P. Miranda, N. Popoff, Spectrum of the Iwatsuka Hamiltonian at thresholds, J. Math. Anal. Appl. 460 (2018), 516-545.

41.  V. Bruneau, P. Miranda, Threshold singularities of the spectral shift function for a half-plane magnetic Hamiltonian, J. Funct. Anal. 274 (2018),  2499-2531.

42. A. Pushnitski, Spectral asymptotics for Toeplitz operators and an application to banded matrices, In: The Diversity and Beauty of Applied Operator Theory Operator Theory: Advances and Applications 268 (2018), pp 397-412. 

43. D. Sambou, Spectral non-self-adjoint analysis of complex Dirac, Pauli and Schrödinger operators with constant magnetic fields of full rank, Asymptotic Analysis 111 (2019), 113-136. 

44. N. Popoff, Magnetic fields and boundary conditions in spectral and asymptotic analysis, Mémoire d’Habilatation à Diriger les Recherches, Université de Bordeaux, 2019. 

45. V. Ivrii, Microlocal Analysis, Sharp Spectral Asymptotics and Applications. IV. Magnetic Schrödinger operator 2, Springer, Cham, 2019. 

46. Norihiro Someyama, Bounds and gaps of positive eigenvalues of magnetic Schrödinger operators with no or Robin boundary conditions, Preprint arXiv: 1906.03257 (2019).

47. Ignacio Tejeda, Spectral Asymptotics for Compactly Supported Electric Perturbationsof the Landau Hamiltonian, Master thesis, Pontificia Universidad Católica de Chile, 2019. 

48. Naoya Yoshida, Semi-classical approach to the Schrödinger operator with strong magnetic field, Doctoral thesis, Ritsumeikan University, 2020.

49. J. Behrndt, P. Exner, M. Holzmann, V. Lotoreichik, The Landau Hamiltonian with δ-potentials supported on curves, Rev. Math. Phys. 32 (2020) n°4, 2050010. 

50. N. Yoshida, Eigenvalues and eigenfunctions for the two dimensional Schrödinger operator with strong magnetic field, Asymptotic Analysis, 120 (2020), no. 1-2, 175-197. 

51. Esteban Cárdenas, Pseudo-differential perturbations of the Landau Hamiltonian. In: Spectral Theory and Mathematical Physics. STMP 2018, Santiago, Chile, P. Miranda, N. Popoff, and G. Raikov (Eds.), Latin American Mathematics Series, Springer Nature, Switzerland AG, 2020.

52. Abdelhadi Benahmadi, Mohammed Ziyat, Spectral asymptotics for the Landau Hamiltonian on cylindrical surfaces, Letters in Mathematical Physics 113 (2023), Article number: 70. 

53. N.R.M. Weber, Spectral asymptotics of Landau Hamiltonians with δ-perturbations supported on curves in R2, Master thesis, TU Graz, 2023.

54. Jacques Barbe, Spectral bounds for non-smooth perturbations of the Landau Hamiltonian, Osaka J. Math., 60 (2023), 777–797.