build based on 27c46ea

dev/.documenter-siteinfo.json

@@ -1 +1 @@
-{"documenter":{"julia_version":"1.10.2","generation_timestamp":"2024-03-16T05:42:13","documenter_version":"1.3.0"}}
+{"documenter":{"julia_version":"1.10.2","generation_timestamp":"2024-03-22T00:31:52","documenter_version":"1.3.0"}}

dev/generated/ground/index.html

@@ -43,4 +43,4 @@
 p = plot()
 buildplots!(p, amps)
 plot!(p; size=(600,400), ylims=(0, 95), title="Night", legend=(0.85, 1.02),
-      xlabel=&quot;Range (km)&quot;, ylabel=&quot;Amplitude (dB)&quot;, legendtitle=&quot;ϵᵣ, σ&quot;)</code></pre><p><img src="../ground_night.png" alt/></p><p>Low ground conductivity can have a significant influence on the signal propagation - there is strong attenuation. These low conductivities can be found in areas of sea or polar ice and industrial or city areas.</p><p>The influence of ground conductivity on the received signal has similar impact on the day and night scenarios.</p><hr/><p><em>This page was generated using <a href="https://github.com/fredrikekre/Literate.jl">Literate.jl</a>.</em></p></article><nav class="docs-footer"><a class="docs-footer-prevpage" href="../interpolatingfunctions/">« Density and collision frequency as interpolating functions</a><a class="docs-footer-nextpage" href="../../lib/public/">Public Interface »</a><div class="flexbox-break"></div><p class="footer-message">Powered by <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> and the <a href="https://julialang.org/">Julia Programming Language</a>.</p></nav></div><div class="modal" id="documenter-settings"><div class="modal-background"></div><div class="modal-card"><header class="modal-card-head"><p class="modal-card-title">Settings</p><button class="delete"></button></header><section class="modal-card-body"><p><label class="label">Theme</label><div class="select"><select id="documenter-themepicker"><option value="auto">Automatic (OS)</option><option value="documenter-light">documenter-light</option><option value="documenter-dark">documenter-dark</option></select></div></p><hr/><p>This document was generated with <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> version 1.3.0 on <span class="colophon-date" title="Saturday 16 March 2024 05:42">Saturday 16 March 2024</span>. Using Julia version 1.10.2.</p></section><footer class="modal-card-foot"></footer></div></div></div></body></html>
+      xlabel=&quot;Range (km)&quot;, ylabel=&quot;Amplitude (dB)&quot;, legendtitle=&quot;ϵᵣ, σ&quot;)</code></pre><p><img src="../ground_night.png" alt/></p><p>Low ground conductivity can have a significant influence on the signal propagation - there is strong attenuation. These low conductivities can be found in areas of sea or polar ice and industrial or city areas.</p><p>The influence of ground conductivity on the received signal has similar impact on the day and night scenarios.</p><hr/><p><em>This page was generated using <a href="https://github.com/fredrikekre/Literate.jl">Literate.jl</a>.</em></p></article><nav class="docs-footer"><a class="docs-footer-prevpage" href="../interpolatingfunctions/">« Density and collision frequency as interpolating functions</a><a class="docs-footer-nextpage" href="../../lib/public/">Public Interface »</a><div class="flexbox-break"></div><p class="footer-message">Powered by <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> and the <a href="https://julialang.org/">Julia Programming Language</a>.</p></nav></div><div class="modal" id="documenter-settings"><div class="modal-background"></div><div class="modal-card"><header class="modal-card-head"><p class="modal-card-title">Settings</p><button class="delete"></button></header><section class="modal-card-body"><p><label class="label">Theme</label><div class="select"><select id="documenter-themepicker"><option value="auto">Automatic (OS)</option><option value="documenter-light">documenter-light</option><option value="documenter-dark">documenter-dark</option></select></div></p><hr/><p>This document was generated with <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> version 1.3.0 on <span class="colophon-date" title="Friday 22 March 2024 00:31">Friday 22 March 2024</span>. Using Julia version 1.10.2.</p></section><footer class="modal-card-foot"></footer></div></div></div></body></html>

dev/generated/integratedreflection/index.html

@@ -138,4 +138,4 @@
 heatmap(tolerancestrings, solverstrings, permutedims(mean_times)/1e6;
         clims=(0, 5),
         xlabel="tolerance", ylabel="solver",
-        colorbar_title=&quot;time (μs)&quot;, colorbar=true)</code></pre><p><img src="../integratedreflection_time.png" alt/></p><p>The best accuracy occurs with <code>Vern7</code> and experiment&#39;s we&#39;ve done looking at the sensitivity of the mode solutions to integration tolerance have shown we can get away with a tolerance of <code>1e-4</code>. To play it safe, the default used by LMP is <code>1e-5</code>. The integration accuracy improves considerably for relatively little additional computation time if the tolerance is changed to <code>1e-9</code>, but that accuracy is not required.</p><hr/><p><em>This page was generated using <a href="https://github.com/fredrikekre/Literate.jl">Literate.jl</a>.</em></p></article><nav class="docs-footer"><a class="docs-footer-prevpage" href="../meshgrid2/">« Mesh grid for mode finding - Part 2</a><a class="docs-footer-nextpage" href="../wavefieldintegration/">Wavefield integration »</a><div class="flexbox-break"></div><p class="footer-message">Powered by <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> and the <a href="https://julialang.org/">Julia Programming Language</a>.</p></nav></div><div class="modal" id="documenter-settings"><div class="modal-background"></div><div class="modal-card"><header class="modal-card-head"><p class="modal-card-title">Settings</p><button class="delete"></button></header><section class="modal-card-body"><p><label class="label">Theme</label><div class="select"><select id="documenter-themepicker"><option value="auto">Automatic (OS)</option><option value="documenter-light">documenter-light</option><option value="documenter-dark">documenter-dark</option></select></div></p><hr/><p>This document was generated with <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> version 1.3.0 on <span class="colophon-date" title="Saturday 16 March 2024 05:42">Saturday 16 March 2024</span>. Using Julia version 1.10.2.</p></section><footer class="modal-card-foot"></footer></div></div></div></body></html>
+        colorbar_title=&quot;time (μs)&quot;, colorbar=true)</code></pre><p><img src="../integratedreflection_time.png" alt/></p><p>The best accuracy occurs with <code>Vern7</code> and experiment&#39;s we&#39;ve done looking at the sensitivity of the mode solutions to integration tolerance have shown we can get away with a tolerance of <code>1e-4</code>. To play it safe, the default used by LMP is <code>1e-5</code>. The integration accuracy improves considerably for relatively little additional computation time if the tolerance is changed to <code>1e-9</code>, but that accuracy is not required.</p><hr/><p><em>This page was generated using <a href="https://github.com/fredrikekre/Literate.jl">Literate.jl</a>.</em></p></article><nav class="docs-footer"><a class="docs-footer-prevpage" href="../meshgrid2/">« Mesh grid for mode finding - Part 2</a><a class="docs-footer-nextpage" href="../wavefieldintegration/">Wavefield integration »</a><div class="flexbox-break"></div><p class="footer-message">Powered by <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> and the <a href="https://julialang.org/">Julia Programming Language</a>.</p></nav></div><div class="modal" id="documenter-settings"><div class="modal-background"></div><div class="modal-card"><header class="modal-card-head"><p class="modal-card-title">Settings</p><button class="delete"></button></header><section class="modal-card-body"><p><label class="label">Theme</label><div class="select"><select id="documenter-themepicker"><option value="auto">Automatic (OS)</option><option value="documenter-light">documenter-light</option><option value="documenter-dark">documenter-dark</option></select></div></p><hr/><p>This document was generated with <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> version 1.3.0 on <span class="colophon-date" title="Friday 22 March 2024 00:31">Friday 22 March 2024</span>. Using Julia version 1.10.2.</p></section><footer class="modal-card-foot"></footer></div></div></div></body></html>

dev/generated/interpolatingfunctions/index.html

@@ -94,8 +94,8 @@
 plot(p1, p2, layout=grid(2,1,heights=[0.7, 0.3]))</code></pre><p><img src="../interpolatingfunctions_phase.png" alt/></p><p>Here is the mean absolute amplitude difference between each technique and the true profile amplitude. We filter to finite values because the amplitude calculated at 0 meters is <code>Inf</code>.</p><pre><code class="language-julia hljs">for n in (&quot;linear&quot;, &quot;cubic&quot;, &quot;FritschButland&quot;, &quot;FritschCarlson&quot;, &quot;Steffen&quot;)
     @printf(&quot;%s: %.3e\n&quot;,n, meanad(filter(isfinite,results[n][2]),
         filter(isfinite,results[&quot;truth&quot;][2])))
-end</code></pre><pre class="documenter-example-output"><code class="nohighlight hljs ansi">linear: 1.396e-02
-cubic: 2.647e-03
-FritschButland: 2.776e-03
-FritschCarlson: 2.791e-03
-Steffen: 3.258e-03</code></pre><p>The amplitude and phase for each of the interpolators matches the true exponential profile extremely closely relative to the typical noise of real VLF measurements.</p><p>Timing can vary when run by GitHub to build the documentation, so results here are from a local run:</p><table><tr><th style="text-align: right">Interpolator</th><th style="text-align: right">Runtime relative to <code>truth</code></th></tr><tr><td style="text-align: right">truth</td><td style="text-align: right">1</td></tr><tr><td style="text-align: right">linear</td><td style="text-align: right">0.84</td></tr><tr><td style="text-align: right">cubic</td><td style="text-align: right">0.85</td></tr><tr><td style="text-align: right">FritschButland</td><td style="text-align: right">0.91</td></tr><tr><td style="text-align: right">FritschCarlson</td><td style="text-align: right">0.92</td></tr><tr><td style="text-align: right">Steffen</td><td style="text-align: right">0.82</td></tr></table><p>Really, any of these except for the linear interpolation could be used to interpolate a discrete profile. The Steffen and cubic interpolations are fastest, but the FritschButland is a little more true to the actual profile. It&#39;s for that reason that FritschButland is used to interpolate <a href="../../lib/public/#LongwaveModePropagator.TableInput"><code>TableInput</code></a> types in LongwaveModePropagator.</p><hr/><p><em>This page was generated using <a href="https://github.com/fredrikekre/Literate.jl">Literate.jl</a>.</em></p></article><nav class="docs-footer"><a class="docs-footer-prevpage" href="../multiplespecies/">« Multiple ionospheric species</a><a class="docs-footer-nextpage" href="../ground/">Ground »</a><div class="flexbox-break"></div><p class="footer-message">Powered by <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> and the <a href="https://julialang.org/">Julia Programming Language</a>.</p></nav></div><div class="modal" id="documenter-settings"><div class="modal-background"></div><div class="modal-card"><header class="modal-card-head"><p class="modal-card-title">Settings</p><button class="delete"></button></header><section class="modal-card-body"><p><label class="label">Theme</label><div class="select"><select id="documenter-themepicker"><option value="auto">Automatic (OS)</option><option value="documenter-light">documenter-light</option><option value="documenter-dark">documenter-dark</option></select></div></p><hr/><p>This document was generated with <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> version 1.3.0 on <span class="colophon-date" title="Saturday 16 March 2024 05:42">Saturday 16 March 2024</span>. Using Julia version 1.10.2.</p></section><footer class="modal-card-foot"></footer></div></div></div></body></html>
+end</code></pre><pre class="documenter-example-output"><code class="nohighlight hljs ansi">linear: 1.614e-02
+cubic: 6.315e-03
+FritschButland: 4.328e-03
+FritschCarlson: 5.099e-03
+Steffen: 4.154e-03</code></pre><p>The amplitude and phase for each of the interpolators matches the true exponential profile extremely closely relative to the typical noise of real VLF measurements.</p><p>Timing can vary when run by GitHub to build the documentation, so results here are from a local run:</p><table><tr><th style="text-align: right">Interpolator</th><th style="text-align: right">Runtime relative to <code>truth</code></th></tr><tr><td style="text-align: right">truth</td><td style="text-align: right">1</td></tr><tr><td style="text-align: right">linear</td><td style="text-align: right">0.84</td></tr><tr><td style="text-align: right">cubic</td><td style="text-align: right">0.85</td></tr><tr><td style="text-align: right">FritschButland</td><td style="text-align: right">0.91</td></tr><tr><td style="text-align: right">FritschCarlson</td><td style="text-align: right">0.92</td></tr><tr><td style="text-align: right">Steffen</td><td style="text-align: right">0.82</td></tr></table><p>Really, any of these except for the linear interpolation could be used to interpolate a discrete profile. The Steffen and cubic interpolations are fastest, but the FritschButland is a little more true to the actual profile. It&#39;s for that reason that FritschButland is used to interpolate <a href="../../lib/public/#LongwaveModePropagator.TableInput"><code>TableInput</code></a> types in LongwaveModePropagator.</p><hr/><p><em>This page was generated using <a href="https://github.com/fredrikekre/Literate.jl">Literate.jl</a>.</em></p></article><nav class="docs-footer"><a class="docs-footer-prevpage" href="../multiplespecies/">« Multiple ionospheric species</a><a class="docs-footer-nextpage" href="../ground/">Ground »</a><div class="flexbox-break"></div><p class="footer-message">Powered by <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> and the <a href="https://julialang.org/">Julia Programming Language</a>.</p></nav></div><div class="modal" id="documenter-settings"><div class="modal-background"></div><div class="modal-card"><header class="modal-card-head"><p class="modal-card-title">Settings</p><button class="delete"></button></header><section class="modal-card-body"><p><label class="label">Theme</label><div class="select"><select id="documenter-themepicker"><option value="auto">Automatic (OS)</option><option value="documenter-light">documenter-light</option><option value="documenter-dark">documenter-dark</option></select></div></p><hr/><p>This document was generated with <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> version 1.3.0 on <span class="colophon-date" title="Friday 22 March 2024 00:31">Friday 22 March 2024</span>. Using Julia version 1.10.2.</p></section><footer class="modal-card-foot"></footer></div></div></div></body></html>

dev/generated/interpretinghpbeta/index.html

@@ -161,4 +161,4 @@
 end
 buildplots!(p, amps);
 plot!(p; size=(600,400), ylims=(22, 95),
-      xlabel=&quot;Range (km)&quot;, ylabel=&quot;Amplitude (dB)&quot;, legendtitle=&quot;1.816 ν₀, a&quot;)</code></pre><p><img src="../interpreting_collisionnight.png" alt/></p><hr/><p><em>This page was generated using <a href="https://github.com/fredrikekre/Literate.jl">Literate.jl</a>.</em></p><section class="footnotes is-size-7"><ul><li class="footnote" id="footnote-1"><a class="tag is-link" href="#citeref-1">1</a>As a government technical report and not a journal paper curated by a publishing company, it is difficult to track how many times it has been cited by others.</li></ul></section></article><nav class="docs-footer"><a class="docs-footer-prevpage" href="../magneticfield/">« Magnetic field direction</a><a class="docs-footer-nextpage" href="../multiplespecies/">Multiple ionospheric species »</a><div class="flexbox-break"></div><p class="footer-message">Powered by <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> and the <a href="https://julialang.org/">Julia Programming Language</a>.</p></nav></div><div class="modal" id="documenter-settings"><div class="modal-background"></div><div class="modal-card"><header class="modal-card-head"><p class="modal-card-title">Settings</p><button class="delete"></button></header><section class="modal-card-body"><p><label class="label">Theme</label><div class="select"><select id="documenter-themepicker"><option value="auto">Automatic (OS)</option><option value="documenter-light">documenter-light</option><option value="documenter-dark">documenter-dark</option></select></div></p><hr/><p>This document was generated with <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> version 1.3.0 on <span class="colophon-date" title="Saturday 16 March 2024 05:42">Saturday 16 March 2024</span>. Using Julia version 1.10.2.</p></section><footer class="modal-card-foot"></footer></div></div></div></body></html>
+      xlabel=&quot;Range (km)&quot;, ylabel=&quot;Amplitude (dB)&quot;, legendtitle=&quot;1.816 ν₀, a&quot;)</code></pre><p><img src="../interpreting_collisionnight.png" alt/></p><hr/><p><em>This page was generated using <a href="https://github.com/fredrikekre/Literate.jl">Literate.jl</a>.</em></p><section class="footnotes is-size-7"><ul><li class="footnote" id="footnote-1"><a class="tag is-link" href="#citeref-1">1</a>As a government technical report and not a journal paper curated by a publishing company, it is difficult to track how many times it has been cited by others.</li></ul></section></article><nav class="docs-footer"><a class="docs-footer-prevpage" href="../magneticfield/">« Magnetic field direction</a><a class="docs-footer-nextpage" href="../multiplespecies/">Multiple ionospheric species »</a><div class="flexbox-break"></div><p class="footer-message">Powered by <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> and the <a href="https://julialang.org/">Julia Programming Language</a>.</p></nav></div><div class="modal" id="documenter-settings"><div class="modal-background"></div><div class="modal-card"><header class="modal-card-head"><p class="modal-card-title">Settings</p><button class="delete"></button></header><section class="modal-card-body"><p><label class="label">Theme</label><div class="select"><select id="documenter-themepicker"><option value="auto">Automatic (OS)</option><option value="documenter-light">documenter-light</option><option value="documenter-dark">documenter-dark</option></select></div></p><hr/><p>This document was generated with <a href="https://github.com/JuliaDocs/Documenter.jl">Documenter.jl</a> version 1.3.0 on <span class="colophon-date" title="Friday 22 March 2024 00:31">Friday 22 March 2024</span>. Using Julia version 1.10.2.</p></section><footer class="modal-card-foot"></footer></div></div></div></body></html>