Codes for electromagnetic scattering by cylinders

Codes for electromagnetic scattering by cylinders – this article list codes for electromagnetic scattering by a cylinder.

Majority of existing codes for calculation of electromagnetic scattering by a single cylinder are based on Mie theory, which is an analytical solution of Maxwell's equations in terms of infinite series.^[1]

Classification edit

The compilation contains information about the electromagnetic scattering by cylindrical particles, relevant links, and applications.^[2]

Codes for electromagnetic scattering by a single homogeneous cylinder edit

Year	Name	Authors	References	Language	Short description
1983	BHCYL	Craig F. Bohren and Donald R. Huffman	^[1]	Fortran	Mie solution (infinite series) to scattering, absorption and phase function of electromagnetic waves by a homogeneous cylinder.
1992	SCAOBLIQ2.FOR	H. A. Yousif and E. Boutros	^[3]	Fortran	Cylinder, oblique incidence.
2002	Mackowski	D. Mackowski		Fortran	Cylinder, oblique incidence.
2008	jMie2D	Jeffrey M. McMahon		C++	Mie solution. Open-source software.
2015	nwabsorption	Sarath Ramadurgam		MATLAB	Computes various optical properties of a single nanowire with up to 2 shell layers using Mie-formalism.
2017	TMATROM	M. Ganesh and Stuart C. Hawkins	^[4]	MATLAB	Numerically stable T-matrix code for cylinders (including with noncircular cross sections).
2020	MieSolver	Stuart C. Hawkins	^[5]	MATLAB	One or more cylinders with mixed properties including solid and layered cylinders.

Relevant scattering codes edit

References edit

^ ^a ^b Bohren, Craig F. and Donald R. Huffman, Title Absorption and scattering of light by small particles, New York : Wiley, 1998, 530 p., ISBN 0-471-29340-7, ISBN 978-0-471-29340-8 (second edition).
^ T. Wreidt, Light scattering theories and computer codes, Journal of Quantitative Spectroscopy and Radiative Transfer, 110, 833–843, 2009.
^ H. A. Yousif and E. Boutros, A FORTRAN code for the scattering of EM-plane waves by an infinitely long cylinder at oblique incidence", Comput. Phys. Commun. 69, 406–414 (1992).
^ Ganesh, M.; Hawkins, Stuart C. (2017). "Algorithm 975: TMATROM - A T-matrix Reduced Order Model Software". ACM Transactions on Mathematical Software. 44: 9:1–9:18. doi:10.1145/3054945. S2CID 24838138.
^ Hawkins, Stuart C. (2020). "Algorithm 1009: MieSolver-An Object-Oriented Mie Series Software for Wave Scattering by Cylinders". ACM Transactions on Mathematical Software. 46: 19:1–19:28. doi:10.1145/3381537. S2CID 218518062.

External links edit

SCATTERLIB: Collection of light scattering codes

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[BohrenHuffman-1] Bohren, Craig F. and Donald R. Huffman, Title Absorption and scattering of light by small particles, New York : Wiley, 1998, 530 p., ISBN 0-471-29340-7, ISBN 978-0-471-29340-8 (second edition).

[2] T. Wreidt, Light scattering theories and computer codes, Journal of Quantitative Spectroscopy and Radiative Transfer, 110, 833–843, 2009.

[3] H. A. Yousif and E. Boutros, A FORTRAN code for the scattering of EM-plane waves by an infinitely long cylinder at oblique incidence", Comput. Phys. Commun. 69, 406–414 (1992).

[4] Ganesh, M.; Hawkins, Stuart C. (2017). "Algorithm 975: TMATROM - A T-matrix Reduced Order Model Software". ACM Transactions on Mathematical Software. 44: 9:1–9:18. doi:10.1145/3054945. S2CID 24838138.

[:0-5] Hawkins, Stuart C. (2020). "Algorithm 1009: MieSolver-An Object-Oriented Mie Series Software for Wave Scattering by Cylinders". ACM Transactions on Mathematical Software. 46: 19:1–19:28. doi:10.1145/3381537. S2CID 218518062.

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