qpms/lepaper/examples.lyx

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\begin_body

\begin_layout Section
Applications
\begin_inset CommandInset label
LatexCommand label
name "sec:Applications"

\end_inset


\end_layout

\begin_layout Standard
Finally, we present some results obtained with the QPMS suite as well as
 benchmarks with BEM.
 Scripts to reproduce these results are available under the 
\family typewriter
examples
\family default
 directory of the QPMS source repository.
 The benchmarks require SCUFF-EM of version xxx
\begin_inset Marginal
status open

\begin_layout Plain Layout
Add the version when possible.
\end_layout

\end_inset

 or newer.
\end_layout

\begin_layout Subsection
Response of a rectangular nanoplasmonic array
\end_layout

\begin_layout Standard
Our first example deals with a plasmonic array made of golden nanoparticles
 placed in a rectangular planar configuration.
 The nanoparticles have shape of right circular cylinder with radius 50
 nm and height 50 nm.
 The particles are placed with periodicities 
\begin_inset Formula $p_{x}=\SI{621}{nm}$
\end_inset

, 
\begin_inset Formula $p_{y}=\SI{571}{nm}$
\end_inset

 into an isotropic medium with a constant refraction index 
\begin_inset Formula $n=1.52$
\end_inset

.
 For gold, we use the optical properties listed in 
\begin_inset CommandInset citation
LatexCommand cite
key "johnson_optical_1972"
literal "false"

\end_inset

 interpolated with cubical splines.
 The particles' cylindrical shape is approximated with a triangular mesh
 with XXX boundary elements.
\begin_inset Marginal
status open

\begin_layout Plain Layout
Show the mesh as well?
\end_layout

\end_inset


\end_layout

\begin_layout Standard
We consider finite arrays with 
\begin_inset Formula $N_{x}\times N_{y}=\ldots\times\ldots,\ldots\times\ldots,\ldots\times\ldots$
\end_inset

 particles and also the corresponding infinite array, and simulate their
 absorption when irradiated by circularly polarised plane waves with energies
 from xx to yy and incidence direction lying in the 
\begin_inset Formula $xz$
\end_inset

 plane.
 The results are shown in Figure 
\begin_inset CommandInset ref
LatexCommand ref
reference "fig:Example rectangular absorption"
plural "false"
caps "false"
noprefix "false"

\end_inset

.
 
\begin_inset Marginal
status open

\begin_layout Plain Layout
Mention lMax.
\end_layout

\end_inset


\begin_inset Float figure
placement document
alignment document
wide false
sideways false
status open

\begin_layout Plain Layout

\end_layout

\begin_layout Plain Layout
\begin_inset Caption Standard

\begin_layout Plain Layout
Absorption of rectangular arrays of golden nanoparticles with periodicities
 
\begin_inset Formula $p_{x}=\SI{621}{nm}$
\end_inset

, 
\begin_inset Formula $p_{y}=\SI{571}{nm}$
\end_inset

 with a) 
\begin_inset Formula $\ldots\times\ldots$
\end_inset

, b) 
\begin_inset Formula $\ldots\times\ldots$
\end_inset

, c) 
\begin_inset Formula $\ldots\times\ldots$
\end_inset

 and d) infinitely many particles, irradiated by circularly polarised plane
 waves.
 e) Absoption profile of a single nanoparticle.
 
\begin_inset CommandInset label
LatexCommand label
name "fig:Example rectangular absorption"

\end_inset


\end_layout

\end_inset


\end_layout

\end_inset

We compared the 
\begin_inset Formula $\ldots\times\ldots$
\end_inset

 case with a purely BEM-based solution obtained using the 
\family typewriter
scuff-scatter
\family default
 utility.
 TODO WHAT DO WE GET? 
\end_layout

\begin_layout Standard
In the infinite case, we benchmarked against a pseudorandom selection of
 
\begin_inset Formula $\left(\vect k,\omega\right)$
\end_inset

 pairs and the difference was TODO WHAT? We note that evaluating one 
\begin_inset Formula $\left(\vect k,\omega\right)$
\end_inset

 pair took xxx miliseconds with MSTMM and truncation degree 
\begin_inset Formula $L=?$
\end_inset

, the same took xxx hours with BEM.
\begin_inset Marginal
status open

\begin_layout Plain Layout
TODO also details about the machines used.
 More info about time also at least for the largest case.
\end_layout

\end_inset


\end_layout

\begin_layout Subsection
Modes of a rectangular nanoplasmonic array
\end_layout

\begin_layout Standard
Next, we study the eigenmode problem of the same rectangular arrays.
 The system is lossy, therefore the eigenfrequencies are complex and we
 need to have a model of the material optical properties also for complex
 frequencies.
 So in this case we use the Drude-Lorentz model for gold with parameters
 as in [TODO REF].
\end_layout

\end_body
\end_document
Futile attempts to make the lyx document compile Former-commit-id: d164c56e3eedb01db150844cc6eb33aabc065d0d 2019-07-28 15:25:04 +03:00			`#LyX 2.4 created this file. For more info see https://www.lyx.org/`
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Test saving in newer LyX format Former-commit-id: 68375ee370a993015157de1d58b149c9b925b360 2019-07-22 07:52:33 +03:00			`\save_transient_properties true`
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Test saving in newer LyX format Former-commit-id: 68375ee370a993015157de1d58b149c9b925b360 2019-07-22 07:52:33 +03:00			`\font_sf_scale 100 100`
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			`\end_header`

			`\begin_body`

			`\begin_layout Section`
			`Applications`
Fix M = WT -> M = TW + some forgotten changes. Former-commit-id: 4166fb78baf097b52a559ece093454450ed19fbd 2019-08-04 18:24:17 +03:00			`\begin_inset CommandInset label`
			`LatexCommand label`
			`name "sec:Applications"`

			`\end_inset`


Lyx document structure Former-commit-id: 92b5d1d22d1447209145f6b062fcef74b1884721 2019-06-30 21:30:54 +03:00			`\end_layout`

Examples draft Former-commit-id: 3b093dc5504c990f4d20c248e0ee8f437a7d9b65 2019-08-07 09:00:48 +03:00			`\begin_layout Standard`
			`Finally, we present some results obtained with the QPMS suite as well as`
			`benchmarks with BEM.`
			`Scripts to reproduce these results are available under the`
			`\family typewriter`
			`examples`
			`\family default`
			`directory of the QPMS source repository.`
			`The benchmarks require SCUFF-EM of version xxx`
			`\begin_inset Marginal`
			`status open`

			`\begin_layout Plain Layout`
			`Add the version when possible.`
			`\end_layout`

			`\end_inset`

			`or newer.`
			`\end_layout`

			`\begin_layout Subsection`
			`Response of a rectangular nanoplasmonic array`
			`\end_layout`

			`\begin_layout Standard`
			`Our first example deals with a plasmonic array made of golden nanoparticles`
			`placed in a rectangular planar configuration.`
			`The nanoparticles have shape of right circular cylinder with radius 50`
			`nm and height 50 nm.`
			`The particles are placed with periodicities`
			`\begin_inset Formula $p_{x}=\SI{621}{nm}$`
			`\end_inset`

			`,`
			`\begin_inset Formula $p_{y}=\SI{571}{nm}$`
			`\end_inset`

			`into an isotropic medium with a constant refraction index`
			`\begin_inset Formula $n=1.52$`
			`\end_inset`

			`.`
			`For gold, we use the optical properties listed in`
			`\begin_inset CommandInset citation`
			`LatexCommand cite`
			`key "johnson_optical_1972"`
			`literal "false"`

			`\end_inset`

			`interpolated with cubical splines.`
			`The particles' cylindrical shape is approximated with a triangular mesh`
			`with XXX boundary elements.`
			`\begin_inset Marginal`
			`status open`

			`\begin_layout Plain Layout`
			`Show the mesh as well?`
			`\end_layout`

			`\end_inset`


			`\end_layout`

			`\begin_layout Standard`
			`We consider finite arrays with`
			`\begin_inset Formula $N_{x}\times N_{y}=\ldots\times\ldots,\ldots\times\ldots,\ldots\times\ldots$`
			`\end_inset`

			`particles and also the corresponding infinite array, and simulate their`
			`absorption when irradiated by circularly polarised plane waves with energies`
			`from xx to yy and incidence direction lying in the`
			`\begin_inset Formula $xz$`
			`\end_inset`

			`plane.`
			`The results are shown in Figure`
			`\begin_inset CommandInset ref`
			`LatexCommand ref`
			`reference "fig:Example rectangular absorption"`
			`plural "false"`
			`caps "false"`
			`noprefix "false"`

			`\end_inset`

			`.`

			`\begin_inset Marginal`
			`status open`

			`\begin_layout Plain Layout`
			`Mention lMax.`
			`\end_layout`

			`\end_inset`


			`\begin_inset Float figure`
			`placement document`
			`alignment document`
			`wide false`
			`sideways false`
			`status open`

			`\begin_layout Plain Layout`

			`\end_layout`

			`\begin_layout Plain Layout`
			`\begin_inset Caption Standard`

			`\begin_layout Plain Layout`
			`Absorption of rectangular arrays of golden nanoparticles with periodicities`

			`\begin_inset Formula $p_{x}=\SI{621}{nm}$`
			`\end_inset`

			`,`
			`\begin_inset Formula $p_{y}=\SI{571}{nm}$`
			`\end_inset`

			`with a)`
			`\begin_inset Formula $\ldots\times\ldots$`
			`\end_inset`

			`, b)`
			`\begin_inset Formula $\ldots\times\ldots$`
			`\end_inset`

			`, c)`
			`\begin_inset Formula $\ldots\times\ldots$`
			`\end_inset`

			`and d) infinitely many particles, irradiated by circularly polarised plane`
			`waves.`
			`e) Absoption profile of a single nanoparticle.`

			`\begin_inset CommandInset label`
			`LatexCommand label`
			`name "fig:Example rectangular absorption"`

			`\end_inset`


			`\end_layout`

			`\end_inset`


			`\end_layout`

			`\end_inset`

			`We compared the`
			`\begin_inset Formula $\ldots\times\ldots$`
			`\end_inset`

			`case with a purely BEM-based solution obtained using the`
			`\family typewriter`
			`scuff-scatter`
			`\family default`
			`utility.`
			`TODO WHAT DO WE GET?`
			`\end_layout`

			`\begin_layout Standard`
			`In the infinite case, we benchmarked against a pseudorandom selection of`

			`\begin_inset Formula $\left(\vect k,\omega\right)$`
			`\end_inset`

			`pairs and the difference was TODO WHAT? We note that evaluating one`
			`\begin_inset Formula $\left(\vect k,\omega\right)$`
			`\end_inset`

			`pair took xxx miliseconds with MSTMM and truncation degree`
			`\begin_inset Formula $L=?$`
			`\end_inset`

			`, the same took xxx hours with BEM.`
			`\begin_inset Marginal`
			`status open`

			`\begin_layout Plain Layout`
			`TODO also details about the machines used.`
			`More info about time also at least for the largest case.`
			`\end_layout`

			`\end_inset`


			`\end_layout`

			`\begin_layout Subsection`
			`Modes of a rectangular nanoplasmonic array`
			`\end_layout`

			`\begin_layout Standard`
			`Next, we study the eigenmode problem of the same rectangular arrays.`
			`The system is lossy, therefore the eigenfrequencies are complex and we`
			`need to have a model of the material optical properties also for complex`
			`frequencies.`
			`So in this case we use the Drude-Lorentz model for gold with parameters`
			`as in [TODO REF].`
			`\end_layout`

Lyx document structure Former-commit-id: 92b5d1d22d1447209145f6b062fcef74b1884721 2019-06-30 21:30:54 +03:00			`\end_body`
			`\end_document`