「Tutorial01」の版間の差分

2022年5月26日 (木) 04:41時点における最新版

Fitting the complex refractive index by automatic mode

In this tutorial, we will use the C=O stretching region of dimethyl carbonate (DMC) as an example. The initial parameters in the fitting procedure are automatically determined by ComplexRI.

The ATR-IR experimental data file in this tutorial can be downloaded Here. Use Ctrl + s to save the file in your local computer. The file name is “data_DMC_2col.txt”.

Then, please move to the Main Package page.

Upload the“data_DMC_2col.txt” in ① and set the other parameters according to the following figure. (For the meanings of each part, please refer to ➡Manual.)

Now, please click the “Execute Fitting” to start fitting.

Results of Tutorial01

The Result should be like follows.

The above spectra of complex refractive index are expressed by

$n({\tilde {\nu }})=\eta ({\tilde {\nu }})+i\kappa ({\tilde {\nu }})=n_{j}^{0}+\sum _{l}{\frac {A_{l}}{{\tilde {\nu }}_{l}-{\tilde {\nu }}-i\gamma _{l}}}$

The meaning of each output can be found in ➡Manual

Tutorial02

@@ 1行目: / 1行目: @@
-<div><span id="Tutorial01"  style="font-size: 150%;">Input the file </span>➡[[#Explanation of Tutorial01 |Explnation of Tutorial01]]</div>
+<div><span id="Tutorial01"  style="font-size: 150%;"> Fitting the complex refractive index by automatic mode </span> </div>
 ----
-:In this tutorial, you practice to input the input file. You can download the file for this tutorial from the manual page.
+: In this tutorial, we will use the C=O stretching region of dimethyl carbonate (DMC) as an example. The initial parameters in the fitting procedure are automatically determined by ComplexRI.
-[[File:MAN.png|1000px]]
+: The ATR-IR experimental data file in this tutorial can be downloaded <u><htmltag tagname="a" href="https://comp.chem.tohoku.ac.jp/media/Tutorial/data_DMC_2col.txt" target="_blank">Here</htmltag></u>. Use Ctrl + s to save the file in your local computer. The file name is “data_DMC_2col.txt”.
-:Here, you use File01. Click “download the File 01” to download this file. The name should be “data_DMC_2col.txt”.
+: Then, please move to the Main Package page.
-[[File:NewDL1.png|500px]]
+[[File:Nav-Main.png|1000px]]
-:Then, please move to the LSR page.
+: Upload the“data_DMC_2col.txt” in ① and set the other parameters according to the following figure. (For the meanings of each part, please refer to ➡[[ComplexRI Manual#Manual|Manual]].)
-[[File:LSRNEW.png|1000px]]
+:[[File:2Newtutorial01.png|1500px]]
-:There are eleven input fields from①to⑪. In this tutorial, you input only two field.
+: Now, please click the “Execute Fitting” to start fitting.
-:First, it is title. This is the input field①. This value become the name of the output file. Please, give freely.
+<div id="Results of Tutorial01" style="font-size: 150%;"> Results of Tutorial01</div>
-:Second, it is input file. This is the input fields②. Please, input the file01 you downloaded rihgt before.
-:Now, please click the “Execute LSR” to start fitting.
-<div id="Explanation of Tutorial01" style="font-size: 150%;">Explanation of Tutorial01</div>
 ----
-:Result should be like below.
+: The Result should be like follows.
-<div id = "image1-1" style="font-size: 120%;">[図1-1]</div>
+[[File:2Newres_tuto01.png|750px]]
-[[File:０１結果.png|500px]]
+: The above spectra of complex refractive index are expressed by
-:Please, Click "download the output file" to download the outputfile, and check if the name is the same as the value you give in the input field①.
+<math> n(\tilde{\nu}) = \eta(\tilde{\nu}) + i \kappa (\tilde{\nu}) = n_j^0 + \sum_l \frac{A_l}{\tilde{\nu}_l - \tilde{\nu} - i \gamma_l} </math>
-:This is the basic flow of ComplexRI. In the next tutorial, you can practice to input the values to other input fields.
+: The meaning of each output can be found in ➡[[ComplexRI Manual#Manual|Manual]]
-:Here, we explain only the format of input file.
-[[File:NewFILE01.png|200px]]
-:The content of file you downloaded should be like above. There are the wavenumber and the corresponding reflectance in the first columns and second columns respectively.
-:We explain the result in <u>[[Output|Output]]</u>.
 [[Tutorial02|Tutorial02]]

「Tutorial01」の版間の差分

2022年5月26日 (木) 04:41時点における最新版

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