Fix typos, add bibliography.

Former-commit-id: 625bcf54b52f5866c9c120b7f4fb35f50b6c9ac4
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Marek Nečada 2019-07-31 17:52:58 +03:00
parent 3a0c5b21c8
commit 91e2ae9e4d
3 changed files with 90 additions and 24 deletions

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@ -10,6 +10,14 @@
file = {/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/HES6WJTP/(Wiley science paperback series) Craig F. Bohren, Donald R. Huffman-Absorption and scattering of light by small particles-Wiley-VCH (1998).djvu} file = {/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/HES6WJTP/(Wiley science paperback series) Craig F. Bohren, Donald R. Huffman-Absorption and scattering of light by small particles-Wiley-VCH (1998).djvu}
} }
@misc{SCUFF2,
title = {{{SCUFF}}-{{EM}}},
url = {http://homerreid.dyndns.org/scuff-EM/},
author = {Reid, Homer},
year = {2018},
note = {http://github.com/homerreid/scuff-EM}
}
@article{xu_calculation_1996, @article{xu_calculation_1996,
title = {Calculation of the {{Addition Coefficients}} in {{Electromagnetic Multisphere}}-{{Scattering Theory}}}, title = {Calculation of the {{Addition Coefficients}} in {{Electromagnetic Multisphere}}-{{Scattering Theory}}},
volume = {127}, volume = {127},
@ -284,6 +292,46 @@
file = {/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/YMRZHBY4/Linton ja Thompson - 2009 - One- and two-dimensional lattice sums for the thre.pdf;/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/Z8CFQ6S9/S0021999108005962.html} file = {/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/YMRZHBY4/Linton ja Thompson - 2009 - One- and two-dimensional lattice sums for the thre.pdf;/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/Z8CFQ6S9/S0021999108005962.html}
} }
@book{olver_nist_2010,
edition = {1 Pap/Cdr},
title = {{{NIST}} Handbook of Mathematical Functions},
isbn = {978-0-521-14063-8},
urldate = {2018-08-20},
publisher = {{Cambridge University Press}},
url = {http://gen.lib.rus.ec/book/index.php?md5=7750A842DAAE07EBE30D597EB1352408},
author = {Olver, Frank W. J. and Lozier, Daniel W. and Boisvert, Ronald F. and Clark, Charles W.},
year = {2010},
file = {/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/ZJ5LBQ8W/Olver ym. - 2010 - NIST handbook of mathematical functions.pdf}
}
@article{NIST:DLMF,
title = {{{NIST Digital Library}} of {{Mathematical Functions}}},
url = {http://dlmf.nist.gov/},
key = {DLMF},
note = {F.~W.~J. Olver, A.~B. Olde Daalhuis, D.~W. Lozier, B.~I. Schneider, R.~F. Boisvert, C.~W. Clark, B.~R. Miller and B.~V. Saunders, eds.}
}
@article{reid_efficient_2015,
archivePrefix = {arXiv},
eprinttype = {arxiv},
eprint = {1307.2966},
title = {Efficient {{Computation}} of {{Power}}, {{Force}}, and {{Torque}} in {{BEM Scattering Calculations}}},
volume = {63},
issn = {0018-926X, 1558-2221},
abstract = {We present concise, computationally efficient formulas for several quantities of interest -- including absorbed and scattered power, optical force (radiation pressure), and torque -- in scattering calculations performed using the boundary-element method (BEM) [also known as the method of moments (MOM)]. Our formulas compute the quantities of interest \textbackslash{}textit\{directly\} from the BEM surface currents with no need ever to compute the scattered electromagnetic fields. We derive our new formulas and demonstrate their effectiveness by computing power, force, and torque in a number of example geometries. Free, open-source software implementations of our formulas are available for download online.},
number = {8},
urldate = {2018-09-23},
journal = {IEEE Transactions on Antennas and Propagation},
doi = {10.1109/TAP.2015.2438393},
url = {http://arxiv.org/abs/1307.2966},
author = {Reid, M. T. Homer and Johnson, Steven G.},
month = aug,
year = {2015},
keywords = {Physics - Classical Physics,Physics - Computational Physics},
pages = {3588-3598},
file = {/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/I2DXTKUF/Reid ja Johnson - 2015 - Efficient Computation of Power, Force, and Torque .pdf;/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/LG7AVZDH/1307.html}
}
@article{guo_lasing_2019, @article{guo_lasing_2019,
title = {Lasing at \${{K}}\$ {{Points}} of a {{Honeycomb Plasmonic Lattice}}}, title = {Lasing at \${{K}}\$ {{Points}} of a {{Honeycomb Plasmonic Lattice}}},
volume = {122}, volume = {122},
@ -332,6 +380,24 @@
file = {/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/ZRYZ4KLK/Kristensson - 2016 - Scattering of Electromagnetic Waves by Obstacles.pdf} file = {/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/ZRYZ4KLK/Kristensson - 2016 - Scattering of Electromagnetic Waves by Obstacles.pdf}
} }
@article{ganesh_convergence_2012,
title = {Convergence Analysis with Parameter Estimates for a Reduced Basis Acoustic Scattering {{T}}-Matrix Method},
volume = {32},
issn = {0272-4979},
abstract = {Abstract. The celebrated truncated T-matrix method for wave propagation models belongs to a class of the reduced basis methods (RBMs), with the parameters bein},
language = {en},
number = {4},
urldate = {2019-07-03},
journal = {IMA J Numer Anal},
doi = {10.1093/imanum/drr041},
url = {https://academic.oup.com/imajna/article/32/4/1348/654510},
author = {Ganesh, M. and Hawkins, S. C. and Hiptmair, R.},
month = oct,
year = {2012},
pages = {1348-1374},
file = {/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/2CRM9IEU/ganesh2012.pdf;/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/KLKJBTZU/Ganesh ym. - 2012 - Convergence analysis with parameter estimates for .pdf;/u/46/necadam1/unix/.mozilla/firefox/6m8fw48s.default/zotero/storage/N5H8B7SF/654510.html}
}
@book{chew_fast_2000, @book{chew_fast_2000,
series = {Artech {{House Antennas}} and {{Propagation Library}}}, series = {Artech {{House Antennas}} and {{Propagation Library}}},
title = {Fast and {{Efficient Algorithms}} in {{Computational Electromagnetics}}}, title = {Fast and {{Efficient Algorithms}} in {{Computational Electromagnetics}}},

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@ -443,7 +443,7 @@ The regular VSWFs
constitute a basis for solutions of the Helmholtz equation constitute a basis for solutions of the Helmholtz equation
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:Helmholtz eq" reference "eq:Helmholtz eq"
plural "false" plural "false"
caps "false" caps "false"
@ -589,7 +589,7 @@ ing appropriate expansion coefficients
of the driving field into of the driving field into
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:T-matrix definition" reference "eq:T-matrix definition"
plural "false" plural "false"
caps "false" caps "false"
@ -602,7 +602,7 @@ noprefix "false"
\begin_inset Formula $\outcoefftlm{\tau}lm$ \begin_inset Formula $\outcoefftlm{\tau}lm$
\end_inset \end_inset
are related to the induced electric ( are the effective induced electric (
\begin_inset Formula $\tau=1$ \begin_inset Formula $\tau=1$
\end_inset \end_inset
@ -756,7 +756,7 @@ For convenience, let us introduce a short-hand matrix notation for the expansion
indices explicitly; so for example, eq. indices explicitly; so for example, eq.
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:T-matrix definition" reference "eq:T-matrix definition"
plural "false" plural "false"
caps "false" caps "false"
@ -798,7 +798,7 @@ literal "true"
have expansion as in have expansion as in
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:E field expansion" reference "eq:E field expansion"
plural "false" plural "false"
caps "false" caps "false"
@ -1722,7 +1722,7 @@ reference "eq:absorption CS single"
-th particle reads according to -th particle reads according to
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:regular vswf translation" reference "eq:regular vswf translation"
plural "false" plural "false"
caps "false" caps "false"
@ -1745,7 +1745,7 @@ whereas the contributions of fields scattered from each particle expanded
is, according to is, according to
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:singular vswf translation" reference "eq:singular vswf translation"
plural "false" plural "false"
caps "false" caps "false"
@ -1763,7 +1763,7 @@ noprefix "false"
Using the unitarity Using the unitarity
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:regular translation unitarity" reference "eq:regular translation unitarity"
plural "false" plural "false"
caps "false" caps "false"
@ -1773,7 +1773,7 @@ noprefix "false"
and composition and composition
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:regular translation composition" reference "eq:regular translation composition"
plural "false" plural "false"
caps "false" caps "false"
@ -1805,7 +1805,7 @@ where only the last expression is suitable for numerical evaluation with
Substituting Substituting
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:atf form multiparticle" reference "eq:atf form multiparticle"
plural "false" plural "false"
caps "false" caps "false"
@ -1815,7 +1815,7 @@ noprefix "false"
, ,
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:f squared form multiparticle" reference "eq:f squared form multiparticle"
plural "false" plural "false"
caps "false" caps "false"
@ -1825,7 +1825,7 @@ noprefix "false"
into into
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:scattering CS single" reference "eq:scattering CS single"
plural "false" plural "false"
caps "false" caps "false"
@ -1835,7 +1835,7 @@ noprefix "false"
and and
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:absorption CS single" reference "eq:absorption CS single"
plural "false" plural "false"
caps "false" caps "false"
@ -1873,7 +1873,7 @@ An alternative approach to derive the absorption cross section is via a
power transport argument. power transport argument.
Note the direct proportionality between absorption cross section Note the direct proportionality between absorption cross section
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:absorption CS single" reference "eq:absorption CS single"
plural "false" plural "false"
caps "false" caps "false"
@ -1883,7 +1883,7 @@ noprefix "false"
and net radiated power for single scatterer and net radiated power for single scatterer
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:Power transport" reference "eq:Power transport"
plural "false" plural "false"
caps "false" caps "false"
@ -1905,7 +1905,7 @@ noprefix "false"
. .
Using the power transport formula Using the power transport formula
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:Power transport" reference "eq:Power transport"
plural "false" plural "false"
caps "false" caps "false"
@ -1923,7 +1923,7 @@ noprefix "false"
which seems different from which seems different from
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:absorption CS multi" reference "eq:absorption CS multi"
plural "false" plural "false"
caps "false" caps "false"
@ -1933,7 +1933,7 @@ noprefix "false"
, but using , but using
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:particle total incident field coefficient a" reference "eq:particle total incident field coefficient a"
plural "false" plural "false"
caps "false" caps "false"
@ -1974,7 +1974,7 @@ TODO better formulation
proving that the expressions in proving that the expressions in
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:absorption CS multi" reference "eq:absorption CS multi"
plural "false" plural "false"
caps "false" caps "false"
@ -1984,7 +1984,7 @@ noprefix "false"
and and
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:absorption CS multi alternative" reference "eq:absorption CS multi alternative"
plural "false" plural "false"
caps "false" caps "false"

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@ -215,7 +215,7 @@ noprefix "false"
. .
In such system, the multiple-scattering problem In such system, the multiple-scattering problem
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:Multiple-scattering problem" reference "eq:Multiple-scattering problem"
plural "false" plural "false"
caps "false" caps "false"
@ -253,7 +253,7 @@ Due to periodicity, we can also write
, the solutions of , the solutions of
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:Multiple-scattering problem periodic" reference "eq:Multiple-scattering problem periodic"
plural "false" plural "false"
caps "false" caps "false"
@ -268,7 +268,7 @@ noprefix "false"
, and eq. , and eq.
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "eq:Multiple-scattering problem periodic" reference "eq:Multiple-scattering problem periodic"
plural "false" plural "false"
caps "false" caps "false"
@ -309,7 +309,7 @@ evaluation of which is possible but quite non-trivial due to the infinite
lattice sum, so we explain it separately in Sect. lattice sum, so we explain it separately in Sect.
\begin_inset CommandInset ref \begin_inset CommandInset ref
LatexCommand ref LatexCommand eqref
reference "subsec:W operator evaluation" reference "subsec:W operator evaluation"
plural "false" plural "false"
caps "false" caps "false"