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Chapter 9: Discrete dipole approximation. / Yurkin, Maxim A.

Light, Plasmonics and Particles. Elsevier, 2023. стр. 167-198 (Light, Plasmonics and Particles).

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийглава/разделнаучнаяРецензирование

Harvard

Yurkin, MA 2023, Chapter 9: Discrete dipole approximation. в Light, Plasmonics and Particles. Light, Plasmonics and Particles, Elsevier, стр. 167-198. https://doi.org/10.1016/B978-0-323-99901-4.00020-2

APA

Yurkin, M. A. (2023). Chapter 9: Discrete dipole approximation. в Light, Plasmonics and Particles (стр. 167-198). (Light, Plasmonics and Particles). Elsevier. https://doi.org/10.1016/B978-0-323-99901-4.00020-2

Vancouver

Yurkin MA. Chapter 9: Discrete dipole approximation. в Light, Plasmonics and Particles. Elsevier. 2023. стр. 167-198. (Light, Plasmonics and Particles). doi: 10.1016/B978-0-323-99901-4.00020-2

Author

Yurkin, Maxim A. / Chapter 9: Discrete dipole approximation. Light, Plasmonics and Particles. Elsevier, 2023. стр. 167-198 (Light, Plasmonics and Particles).

BibTeX

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title = "Chapter 9: Discrete dipole approximation",
abstract = "This chapter is dedicated to the general volume-discretization method, known as the discrete dipole approximation (DDA). The main DDA equations are presented for local non-magnetic materials, including a non-absorbing host medium. This framework describes not only the conventional scattering problems but also excitation by arbitrary complex vector beams, as well as the calculation of emission (decay-rate) enhancement and electron energy-loss probability. Many available DDA formulations and important numerical issues are also discussed. Special attention is paid to practical aspects of the DDA simulations, including the comparison of the two most popular open-source codes: DDSCAT and ADDA.",
keywords = "Discrete dipole approximation, Electromagnetic scattering, Method of moments, Volume-integral equation",
author = "Yurkin, {Maxim A.}",
year = "2023",
doi = "10.1016/B978-0-323-99901-4.00020-2",
language = "English",
isbn = "9780323999014",
series = "Light, Plasmonics and Particles",
publisher = "Elsevier",
pages = "167--198",
booktitle = "Light, Plasmonics and Particles",
address = "United States",

}

RIS

TY - CHAP

T1 - Chapter 9: Discrete dipole approximation

AU - Yurkin, Maxim A.

PY - 2023

Y1 - 2023

N2 - This chapter is dedicated to the general volume-discretization method, known as the discrete dipole approximation (DDA). The main DDA equations are presented for local non-magnetic materials, including a non-absorbing host medium. This framework describes not only the conventional scattering problems but also excitation by arbitrary complex vector beams, as well as the calculation of emission (decay-rate) enhancement and electron energy-loss probability. Many available DDA formulations and important numerical issues are also discussed. Special attention is paid to practical aspects of the DDA simulations, including the comparison of the two most popular open-source codes: DDSCAT and ADDA.

AB - This chapter is dedicated to the general volume-discretization method, known as the discrete dipole approximation (DDA). The main DDA equations are presented for local non-magnetic materials, including a non-absorbing host medium. This framework describes not only the conventional scattering problems but also excitation by arbitrary complex vector beams, as well as the calculation of emission (decay-rate) enhancement and electron energy-loss probability. Many available DDA formulations and important numerical issues are also discussed. Special attention is paid to practical aspects of the DDA simulations, including the comparison of the two most popular open-source codes: DDSCAT and ADDA.

KW - Discrete dipole approximation

KW - Electromagnetic scattering

KW - Method of moments

KW - Volume-integral equation

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UR - https://www.mendeley.com/catalogue/704d5e18-9dd7-30dc-89b3-04a3aaa693e2/

U2 - 10.1016/B978-0-323-99901-4.00020-2

DO - 10.1016/B978-0-323-99901-4.00020-2

M3 - Chapter

SN - 9780323999014

T3 - Light, Plasmonics and Particles

SP - 167

EP - 198

BT - Light, Plasmonics and Particles

PB - Elsevier

ER -

ID: 56408909