Matematyka Obliczeniowa czw 16:15-17:45
sala 1016
Przetwarzanie obrazów i danych wt 11:30-13:00
sala 1146
Równania różniczkowe i zagadnienia pokrewne pt 12:15-13:45
sala 1016
Równania różniczkowe cząstkowe wt 12:15-13:45
sala 1016
dr Sylwester Arabas
adres:Łojasiewicza 6, PL-30-348 Kraków, Poland

Zainteresowania naukowe:
  • fizyka chmur
  • zjawiska transportu
  • inżynieria oprogramowania naukowego
  • finanse ilościowe

CV light:
2008MSc in physicsUniversity of Warsaw
2013PhD in physicsUniversity of Warsaw

Nagrody i stypendia:
2011Conference award (SIAM GS11, Long Beach, CA)Foundation for Polish Science
2012START fellowship (incl. 1 month visit at NCAR, Colorado)Foundation for Polish Science
2013START fellowship - continuationFoundation for Polish Science
2014Mentorship programme (TUDelft, NCAR)Foundation for Polish Science

Granty badawcze:
2007-2008Signatures of Evaporation of Artificial Snow in Alpine Lower Troposphere (SEASALT)EUropean Facility for Airborne Research (EUFAR)
2011-2013Construction of 2-dimensional kinematic cloud numerical model based on the precise description of the microphysics of aerosol particles, clouds and rainPoland's National Science Centre (NCN)
2018-2020Cloud and atmospheric particulate matter microphysics: novel mathematical modelling approachesFoundation for Polish Science

  1. Piotr Bartman, Jakub Banaśkiewicz, Szymon Drenda, Maciej Manna, Michael Olesik, Paweł Rozwoda, Michał Sadowski, Sylwester Arabas,
    PyMPDATA v1: Numba-accelerated implementation of MPDATA with examples in Python, Julia and Matlab
    Journal of Open Source Software, vol. 7(77), (2022)
  2. Michael Olesik, Jakub Banaśkiewicz, Piotr Bartman, Manuel Baumgartner, Simon Unterstrasser, Sylwester Arabas,
    On numerical broadening of particle-size spectra: a condensational growth study using PyMPDATA 1.0
    Geoscientific Model Development, 3879–3899 (2022)
  3. Piotr Bartman, Oleksii Bulenok, Kamil Górski, Anna Jaruga, Grzegorz Łazarski, Michael Olesik, Bartosz Piasecki, Clare Singer, Aleksandra Talar, Sylwester Arabas,
    PySDM v1: particle-based cloud modelling package for warm-rain microphysics and aqueous chemistry
    Journal of Open Source Software, vol. 7(72), 3219 (2022)
  4. Piotr Bartman, Sylwester Arabas,
    On the Design of Monte-Carlo Particle Coagulation Solver Interface: A CPU/GPU Super-Droplet Method Case Study with PySDM
    , vol. 12743, 16-30 (2021)
  5. Sylwester Arabas, Ahmad Farhat,
    Derivative pricing as a transport problem: MPDATA solutions to Black–Scholes-type equations
  6. S. Arabas, S. Shima,
    On the CCN (de)activation nonlinearities
    Nonlinear Processes in Geophysics, 24, 535-542 (2017)
  7. A. Jaruga, S. Arabas, D. Jarecka, H. Pawlowska, P.K. Smolarkiewicz, M. Waruszewski,
    libmpdata++ 1.0: a library of parallel MPDATA solvers for systems of generalised transport equations
    Geoscientific Model Development, 8, 1005-1032 (2015)
  8. S. Arabas, A. Jaruga, H. Pawlowska, W.W. Grabowski,
    libcloudph++ 1.0: a single-moment bulk, double-moment bulk, and particle-based warm-rain microphysics library in C++
    Geoscientific Model Development, 8, 1677-1707 (2015)
  9. S. Arabas, D. Jarecka, A. Jaruga, M. Fijałkowski,
    Formula translation in Blitz++, NumPy and modern Fortran: A case study of the language choice tradeoffs
    Scientific Programming, 22, 201-222 (2014)
  10. S. Arabas, S. Shima,
    Large-Eddy Simulations of Trade Wind Cumuli Using Particle-Based Microphysics with Monte Carlo Coalescence
    Journal of the Atmospheric Sciences, 70, 2768-2777 (2013)
  11. M. Kulmala, et al. (120 co-authors),
    General overview: European Integrated project on Aerosol Cloud Climate and Air Quality interactions (EUCAARI) – integrating aerosol research from nano to global scales
    Atmospheric Chemistry and Physics, 11, 13061-13143 (2011)
  12. S. Arabas, H. Pawlowska,
    Adaptive method of lines for multi-component aerosol condensational growth and CCN activation
    Geoscientific Model Development, 4, 15-31 (2011)
  13. F. Cairo, et al. (51 co-authors),
    An introduction to the SCOUT-AMMA stratospheric aircraft, balloons and sondes campaign in West Africa, August 2006: rationale and roadmap
    Atmospheric Chemistry and Physics, 10, 2237-2256 (2010)
  14. S. Arabas, H. Pawlowska, W.W. Grabowski,
    Effective radius and droplet spectral width from in-situ aircraft observations in trade-wind cumuli during RICO
    Geophysical Research Letters, 36, L11803 (2009)