24. S. Prem, P.-X. Shen, M. M. Wysokiński, M. Trif, Phys. Rev. B 109, 155304 (2024); arXiv:2301:10163
Longitudinal coupling between electrically driven spin-qubits and a resonator
23. K. Jabłonowski, J. Skolimowski, W. Brzezicki, K. Byczuk, M. M. Wysokiński, Phys. Rev. B 108, 195145 (2023); arXiv:2308:02292
Topological Mott insulator in the odd-integer filled Anderson lattice model with Hatsugai-Kohmoto interactions
22. M. M. Wysokiński, W. Brzezicki, Phys. Rev. B 108, 035121 (2023); arXiv:2303:04454
Quantum anomalous Hall insulator in ionic Rashba lattice of correlated electrons
21. H. Kuzdra, J. M. Wysokińska-Miszczuk, K.I. Wysokiński, M. M. Wysokiński, Acta Physica Polonica A 141, 613 (2022)
Why Lockdowns Are Futile and Face Masks Effective in Slowing Down COVID-19-Like Pandemic - Quantitative Analysis with Compartmental Model
20. G. Cuono, C. Autieri, M. M. Wysokiński, Phys. Rev. B 104, 024428 (2021); arXiv:2104.04245
Spatially modulated orbital-selective ferromagnetism in La5Co2Ge3
19. M. M. Wysokiński, M. Płodzień, M. Trif, Phys. Rev. B (Letters) 104, L041402(2021); arXiv:2012:15804
Berry-phase induced entanglement of hole-spin qubits in a microwave cavity
18. M. Płodzień, M. M. Wysokiński, Phys. Rev. B (R. Comm.) 100, 041116 (2019); arXiv:1904:05714
Rabi-resonant behavior of periodically-driven correlated fermion systems
17. W. Brzezicki, M. M. Wysokiński, T. Hyart, Phys. Rev. B (R. Comm.) 100, 121107 (2019); arXiv:1812:02168
Topological properties of multilayers and surface steps in the SnTe material class
16. M. M. Wysokiński, Sci. Rep. 9, 19461 (2019); arXiv:1808:04109
Mechanism for transitions between ferromagnetic and antiferromagnetic orders in d-electron metallic magnets
15. M. M. Wysokiński, Phys. Rev. B (R. Comm.) 97, 041107 (2018); arXiv:1712.02534
Microscopic mechanism for the unusual antiferromagnetic order and the pressure-induced transition to ferromagnetism in USb2
14. M. M. Wysokiński, M. Fabrizio, Phys. Rev. B (R. Comm.) 96, 201115 (2017); arXiv:1711.01840
Interplay of charge and spin dynamics after an interaction quench in the Hubbard model
13. M. M. Wysokiński, M. Fabrizio, Phys. Rev. B (R. Comm.) 95, 161106 (2017); arXiv:1701.01819
Mott physics beyond the Brinkman-Rice scenario
12. M. M. Wysokiński, J. Kaczmarczyk, J.Phys.: Condens. Matter 29, 085604 (2017) *
Unconventional superconductivity in generalized Hubbard model: Role of electron-hole symmetry breaking terms
* included in the annual (2017) journal highlights of J. Phys.:Condens. Matter
11. M. M. Wysokiński, M. Fabrizio, Phys. Rev. B (R. Comm.) 94,121102 (2016)
Many-body breakdown of indirect gap in topological Kondo insulators
10. M. M. Wysokiński, J. Kaczmarczyk, J. Spałek, Phys. Rev. B 94, 024517 (2016)
Correlation-driven multigap d-wave superconductivity in Anderson lattice model
9. M. Abram, M. M. Wysokiński, J. Spałek, J. Magn. Magn. Mater. 400, 27 (2016)
Tricritical wings in UGe2: A microscopic interpretation
8. M. M. Wysokiński, J. Kaczmarczyk, J. Spałek, Phys. Rev. B 92, 125135 (2015)
Gutzwiller Wave-Function Solution for Anderson Lattice Model: Emerging Universal Regimes of Heavy Quasiparticle States
7. M. M. Wysokiński, M. Abram, J. Spałek, Phys. Rev. B (R. Comm.) 91, 081108 (2015)
Criticalities in the itinerant ferromagnet UGe2
6. M. M. Wysokiński, M. Abram, J. Spałek, Phys. Rev. B (R. Comm.) 90, 081114 (2014)
Ferromagnetism in UGe2 : A microscopic model
5. M. M. Wysokiński, J. Spałek, J. Phys.: Condens. Matter, 26, 055601 (2014)
Properties of an almost localized Fermi liquid in an applied magnetic field revisited: a statistically consistent Gutzwiller approach
4. M. M. Wysokiński, Acta Phys. Pol. A 126, A-36 (2014)
Temperature dependence of the zero-bias conductance in the graphene NIS junction
3. M. M. Wysokiński, J. Spałek, J. Appl. Phys. 113, 163905 (2013)
Seebeck effect in the graphene-superconductor junction
2. M. M. Wysokiński, Acta Phys. Pol. A 122, 758 (2012)
Thermoelectric effect in the normal conductor –superconductor junction: a BTK approach
1. M. M. Wysokiński, J. Jędrak, J. Kaczmarczyk, J. Spałek, AIP Conf. Proc. 1485, 319-323 (2012)
Magnetic and thermodynamic properties of correlated fermions - application to liquid 3He