[1]P. Schröder.
"Opracowanie programu do analizy numerycznej procesu nagrzewania i transferu energii w metalach poddanych działaniu promieniowania laserowego dużej mocy w reżimie piko- i femto-sekundowym".
University of Łódź,
pages: 7-48,
2021.
[2]J. C. Butcher.
"Numerical Methods for Ordinary Differential Equations Second Edition".
Willey, The University of Auckland, New Zealand,
pages: 93-103,
2008.
[3]Md. B. Hossain, Md. J. Hossain, Md. M. Miah, Md S. Alam.
"A Comparative Study on Fourth Order and Butcher’s Fifth Order Runge-Kutta Methods with Third Order Initial Value Problem (IVP)".
Applied and Computational Mathematics, Vol. 6, No. 6, 2017, doi: 10.11648/j.acm.20170606.12,
pages: 243-253,
2017.
[4]D. Sarafyan.
"Improved Sixth-Order Runge-Kutta Formulas and Approximate Continuous Solution of Ordinary Differential Equations".
Journal of Mathematical Analysis and Applications 40, Department of Mathematics, Louisiana State University,
pages: 436-445,
1972.
[5]E. Fehlberg.
"Classical fifth-, sixth-, seventh- and eighth-order Runge-Kutta formulas with stepsize control".
NASA Technical Report, George C. Marshall Space Flight Center Huntsville, Alabama,
pages: 1-82,
1968.
[6]N. J. Giordano, H. Nakanishi.
"Computational Physics, Second Edition".
Pearson Prentice Hall, Upper Saddle River, New Jersey,
pages: 1-14,
2006.