Deploy docs to develop by GitHub Actions triggered by b3ef5fb

manual/develop/en/html/_sources/tutorial/03_finite_temperature.rst.txt

@@ -80,10 +80,11 @@ Running the following:
     gnuplot -persist plot_mx.plt
     gnuplot -persist plot_mz.plt
 
-will display plots for energy, heat capacity, and magnetizations (:math:`m_x` and :math:`m_z`). The resulting plots are illustrated in :numref:`fig_tutorial8_finitetemperature`. For comparison, results obtained using Quantum Monte Carlo calculations are also shown (using ``ALPS/looper``).
+will display plots for energy, heat capacity, and magnetizations (:math:`m_x` and :math:`m_z`). The resulting plots are illustrated in :numref:`fig_tutorial3_finitetemperature`. For comparison, results obtained using Quantum Monte Carlo calculations are also shown (using ``DSQSS/dla``).
 
-.. figure:: ../../img/tutorial_08_finitetemperature.*
-    :name: fig_tutorial8_finitetemperature
+.. figure:: ../../img/tutorial_03_finitetemperature.*
+    :name: fig_tutorial3_finitetemperature
     :width: 600px
 
-    Graphs for the finite temperature calculations of the Ising model: (a) energy, (b) heat capacity, (c) :math:`m_x`, and (d) :math:`m_z`. The vertical axis represents the physical quantity, and the horizontal axis denotes temperature.
+    Graphs for the finite temperature calculations of the Ising model: (a) energy, (b) heat capacity, (c) transverse magnetization, and (d) longitudinal magnetization. The vertical axis represents the physical quantity, and the horizontal axis denotes temperature.
+    Curves are results by TeNeS and squares are results by DSQSS/dla (longitudinal magnetization is zero from symmetry).

manual/develop/en/html/tutorial/03_finite_temperature.html

@@ -133,11 +133,12 @@ <h1><span class="section-number">4.3. </span>Finite Temperature Calculations for
 gnuplot -persist plot_mz.plt
 </pre></div>
 </div>
-<p>will display plots for energy, heat capacity, and magnetizations (<span class="math notranslate nohighlight">\(m_x\)</span> and <span class="math notranslate nohighlight">\(m_z\)</span>). The resulting plots are illustrated in <a class="reference internal" href="#fig-tutorial8-finitetemperature"><span class="std std-numref">Fig. 4.4</span></a>. For comparison, results obtained using Quantum Monte Carlo calculations are also shown (using <code class="docutils literal notranslate"><span class="pre">ALPS/looper</span></code>).</p>
-<figure class="align-default" id="fig-tutorial8-finitetemperature">
-<a class="reference internal image-reference" href="../_images/tutorial_08_finitetemperature.png"><img alt="../_images/tutorial_08_finitetemperature.png" src="../_images/tutorial_08_finitetemperature.png" style="width: 600px;" /></a>
+<p>will display plots for energy, heat capacity, and magnetizations (<span class="math notranslate nohighlight">\(m_x\)</span> and <span class="math notranslate nohighlight">\(m_z\)</span>). The resulting plots are illustrated in <a class="reference internal" href="#fig-tutorial3-finitetemperature"><span class="std std-numref">Fig. 4.4</span></a>. For comparison, results obtained using Quantum Monte Carlo calculations are also shown (using <code class="docutils literal notranslate"><span class="pre">DSQSS/dla</span></code>).</p>
+<figure class="align-default" id="fig-tutorial3-finitetemperature">
+<a class="reference internal image-reference" href="../_images/tutorial_03_finitetemperature.png"><img alt="../_images/tutorial_03_finitetemperature.png" src="../_images/tutorial_03_finitetemperature.png" style="width: 600px;" /></a>
 <figcaption>
-<p><span class="caption-number">Fig. 4.4 </span><span class="caption-text">Graphs for the finite temperature calculations of the Ising model: (a) energy, (b) heat capacity, (c) <span class="math notranslate nohighlight">\(m_x\)</span>, and (d) <span class="math notranslate nohighlight">\(m_z\)</span>. The vertical axis represents the physical quantity, and the horizontal axis denotes temperature.</span><a class="headerlink" href="#fig-tutorial8-finitetemperature" title="Permalink to this image">¶</a></p>
+<p><span class="caption-number">Fig. 4.4 </span><span class="caption-text">Graphs for the finite temperature calculations of the Ising model: (a) energy, (b) heat capacity, (c) transverse magnetization, and (d) longitudinal magnetization. The vertical axis represents the physical quantity, and the horizontal axis denotes temperature.
+Curves are results by TeNeS and squares are results by DSQSS/dla (longitudinal magnetization is zero from symmetry).</span><a class="headerlink" href="#fig-tutorial3-finitetemperature" title="Permalink to this image">¶</a></p>
 </figcaption>
 </figure>
 </section>

manual/develop/ja/html/_sources/tutorial/03_finite_temperature.rst.txt

@@ -83,11 +83,12 @@
     gnuplot -persist plot_mx.plt
     gnuplot -persist plot_mz.plt
 
-その結果を :numref:`fig_tutorial8_finitetemperature` に示します。
-比較のため、量子モンテカルロ法を用いて計算した結果も一緒に表示しています ( ``ALPS/looper`` を使用)。
+その結果を :numref:`fig_tutorial3_finitetemperature` に示します。
+比較のため、量子モンテカルロ法を用いて計算した結果も一緒に表示しています ( ``DSQSS/dla`` を使用)。
 
-.. figure:: ../../img/tutorial_08_finitetemperature.*
-	:name: fig_tutorial8_finitetemperature
+.. figure:: ../../img/tutorial_03_finitetemperature.*
+	:name: fig_tutorial3_finitetemperature
 	:width: 600px
 
-	イジング模型の有限温度計算の図: (a) エネルギー、(b) 比熱、(c) :math:`m_x` 、(d) :math:`m_z`. 縦軸は物理量、横軸は温度を表す。
+	イジング模型の有限温度計算の図: (a) エネルギー、(b) 比熱、(c) 横磁化、(d) 縦磁化. 縦軸は物理量、横軸は温度を表す。
+	実線はTeNeSによる計算で、四角はDSQSS/dla によるQMC計算（縦磁化は対称性により0）。

manual/develop/ja/html/tutorial/03_finite_temperature.html

@@ -135,12 +135,13 @@ <h1><span class="section-number">4.3. </span>横磁場イジング模型の有
 gnuplot -persist plot_mz.plt
 </pre></div>
 </div>
-<p>その結果を <a class="reference internal" href="#fig-tutorial8-finitetemperature"><span class="std std-numref">図 4.4</span></a> に示します。
-比較のため、量子モンテカルロ法を用いて計算した結果も一緒に表示しています ( <code class="docutils literal notranslate"><span class="pre">ALPS/looper</span></code> を使用)。</p>
-<figure class="align-default" id="fig-tutorial8-finitetemperature">
-<a class="reference internal image-reference" href="../_images/tutorial_08_finitetemperature.png"><img alt="../_images/tutorial_08_finitetemperature.png" src="../_images/tutorial_08_finitetemperature.png" style="width: 600px;" /></a>
+<p>その結果を <a class="reference internal" href="#fig-tutorial3-finitetemperature"><span class="std std-numref">図 4.4</span></a> に示します。
+比較のため、量子モンテカルロ法を用いて計算した結果も一緒に表示しています ( <code class="docutils literal notranslate"><span class="pre">DSQSS/dla</span></code> を使用)。</p>
+<figure class="align-default" id="fig-tutorial3-finitetemperature">
+<a class="reference internal image-reference" href="../_images/tutorial_03_finitetemperature.png"><img alt="../_images/tutorial_03_finitetemperature.png" src="../_images/tutorial_03_finitetemperature.png" style="width: 600px;" /></a>
 <figcaption>
-<p><span class="caption-number">図 4.4 </span><span class="caption-text">イジング模型の有限温度計算の図: (a) エネルギー、(b) 比熱、(c) <span class="math notranslate nohighlight">\(m_x\)</span> 、(d) <span class="math notranslate nohighlight">\(m_z\)</span>. 縦軸は物理量、横軸は温度を表す。</span><a class="headerlink" href="#fig-tutorial8-finitetemperature" title="この画像へのパーマリンク">¶</a></p>
+<p><span class="caption-number">図 4.4 </span><span class="caption-text">イジング模型の有限温度計算の図: (a) エネルギー、(b) 比熱、(c) 横磁化、(d) 縦磁化. 縦軸は物理量、横軸は温度を表す。
+実線はTeNeSによる計算で、四角はDSQSS/dla によるQMC計算（縦磁化は対称性により0）。</span><a class="headerlink" href="#fig-tutorial3-finitetemperature" title="この画像へのパーマリンク">¶</a></p>
 </figcaption>
 </figure>
 </section>