Péter Boldog


Dept. of Computational Sciences,
Wigner Research Centre for Physics,
Konkoly-Thege M. út 29-33,
Budapest, H-1121, Hungary

KFKI Campus, Building 6, Floor 2, Room 6.


boldog.peter at wigner dot hu
boldogpeter at gmail dot com
+36703671387

Studies
  • 2011, BSc in Biology, University of Szeged
  • 2014, BSc in Physics, University of Szeged
  • 2016, MSc in Physics, major in theoretical and mathematical physics, University of Szeged
  • 2022 ?, Phd in mathematics, University of Szeged
Experience
  • 2008-2010: Intracellular protein degradation, transcription regulation
    • Regulation of Cell Cycle Research Group, Biological Research Center, Szeged
  • 2010-2013: Quenching of singlet oxygen generated by photosynthetic reaction centers with carbon nanotubes
    • Department of Biophysics and bioinformatics, University of Szeged
  • 2014 – 2022: Mathematical modeling of biological phenomena
    • Bolyai Institute, University of Szeged
Research articles
  1. Carbon nanotubes quench singlet oxygen generated by photosynthetic reaction centers
    Peter Boldog, Kata Hajdu, Melinda Magyar, Éva Hideg, Klara Hernádi, Endre Horváth,
    Arnaud Magrez, Krisztina Nagy, György Váró, Laszlo Forró, Laszlo Nagy,
    Physica Status Solidi b
  2. Convergence of solutions in a mean-field model of go-or-grow type with reservation of sites for proliferation and cell cycle delay 
    Baker RE, Boldog P, Röst G 
    Progress in Industrial Mathematics at ECMI 2018 (eds. I. Faragó, F. Izsák, P. Simon), Springer 2019 
    Letöltés
  3. Risk assessment of novel coronavirus COVID-19 outbreaks outside China
    Boldog P, Tekeli T, Vizi Zs, Dénes A, Bartha F, Röst G 
    JOURNAL OF CLINICAL MEDICINE, 9(2), 571 (2020)
    Letöltés
  4. Early Phase of the COVID-19 Outbreak in Hungary and Post-Lockdown Scenarios 
    Gergely Röst, Ferenc A Bartha, Norbert Bogya, Péter Boldog, Attila Dénes, Tamás Ferenci, 
    Krisztina J Horváth, Attila Juhász, Csilla Nagy, Tamás Tekeli, Zsolt Vizi, Beatrix Oroszi 
    VIRUSES, 12(7), 708 (2020)
    Letöltés
  5. Propensity matrix method for age dependent stochastic infectious disease models (Preprint)
    Péter Boldog, Norbert Bogya, Zsolt Vizi
    Trends in Biomathematics: Stability and Oscillations in Environmental, Social, and Biological Models,
    R. P. Mondaini (ed.), Springer (2021), https://doi.org/10.1007/978-3-031-12515-7_17
  6. Potential severity, mitigation, and control of Omicron waves depending on pre-existing immunity and immune evasion 
    F.A. Bartha, P. Boldog, A. Dénes, T. Tekeli, Z. Vizi, G. Röst, 
    Trends in Biomathematics: Stability and Oscillations in Environmental, Social, and Biological Models, 
    R. P. Mondaini (ed.), Springer (2021), https://doi.org/10.1007/978-3-031-12515-7_22
  7. Reconstruction of spatio-temporal membrane potential and resistive current distribution from paired intra- and extracellular recordings
    D. Meszéna, A. Barlay, P. Boldog, D. Cserpán, L. Wittner, I. Ulbert, and Z.Somogyvári
    The Journal of Physiology, Wiley (accepted)
  8. Novel exact lattice-based stochastic cell culture simulation algorithms incorporating spontaneous and contact-dependent reactions (Preprint)
    Péter Boldog
Teaching experience
  • Dynamical systems
  • Linear algebra
  • Calculus 1, 2
  • Probability
  • Mathematics for biologists, chemist
  • Elementary mathematics
  • Mathematical thinking
Prizes
  • 2014: 1st place National Scientific Students’ Associations Conference (OTDK, local competition)
  • 2015: 2nd place National Scientific Students’ Associations Conference (OTDK, national competition)
  • 2020: Innovation Prize of the University of Szeged (with dr. Zsolt Vizi and Norbert Bogya)
  • 2021: Gyula Farkas Commemorative Prize to young researchers in applied mathematics from the János Bolyai Mathematical Society