「Input」の版間の差分

2022年3月4日 (金) 02:05時点における最新版

This is the typical snapshot of the input of ComplexRI.

The input of ComplexRI contains two parts. The left part is the information of ATR-IR experimental data. The right part is the control parameters of the complex refractive index fitting procedure. Each part will be explained in the following.

Information of ATR-IR experiment

①ATR-IR File

Please upload the ATR-IR experimental data in this part. The inside should be like the following.

If there are characters at the beginning of the file, they will be ignored. The columns of wavenumber and ATR-IR data should be separated by space or comma.

For instance, the csv file exported by ATR-IR can be used.

②The order of data

Please select the sort order of your data.

Ascending order: The wavenumbers in the input file are in ascending order (left picture). (Default)

Descending order: The wavenumbers in the input file are in descending order (right picture).

③Reflectance or Absorbance?

Please select the type of your ATR-IR data.

Reflectance(%): The Reflectance of ATR-IR spectra in the value of percentage. (Default)

Reflectance: The Reflectance of ATR-IR spectra.

Absorbance: The Absorbance of ATR-IR spectra.

The relationships between each data are

Reflectance(\%)=Reflectance*100

Absorbance=-\log _{10}(Reflectance)

④The Substrate in ATR-IR

Please select the substrate you used in the ATR-IR experiment. Here, we prepare the three substrates that often used

Diamond(Refractive Index = 2.38). (Default)

Zinc selenide(Refractive Index = 2.40).

Germanium(Refractive Index = 4.0).

You can also input the refractive index of your substrate by selecting Other in the list.

⑤Incident angle in ATR-IR

Please input the incident angle in your ATR-IR experiment. (Default=45 degree)

⑥Select the column of your data

Please input the column number of the data that you want to analyze in your ATR-IR file.

Wavenumber: The column number of wavenumber in your input file. (Default: 1)

ATR-IR data: The column number of ATR-IR data in your input file. (Default: 2)

For example, an input file like following can be uploaded and column 1 and column 5 can be selected for analyzing.

Control parameters of ComplexRI fitting

⑦Title of your job

Please input the title of your job (alphabet). The output results of ComplexRI will be saved in the excel format with the name @Title.xlsx

⑧Input the fitting range

Please input the frequency range (in wavenumber) inside which you want to perform the fitting. ComplexRI will only fit the data inside the range you input here.

Minimum wavenumber: The lower boundary of wavenumber. (Default: 1636)

Maximum wavenumber: The upper boundary of wavenumber. (Default: 1863)

⑨Refractive index of target sample in non-resonance region (

n_{j}^{0}

)

Please input the refractive index of the target sample (

n_{j}^{0}

) in non-resonance region. (Default=1.360)

A database of common liquids is prepared for reference. The determination of

n_{j}^{0}

and some comments about it can be found in How to Fit the ATR-IR spectra .

⑩The tolerance of fitting

Please input the tolerance of the fitting procedure. (default: 0.02)

The fitting will be finished when the calculated residual is less than this value. The details are described in How to Fit the ATR-IR spectra .

Note: Try to gradually decrease this value if the fitting results are not close to the experiments. This often happens when fit to the weak adsorption bands. Be careful that fitting can not finish if this value is too small.

⑪ Manually set the initial parameters

Please select whether to set the initial fitting parameters by yourself.

No: Automatically done by the algorithm (Default)

Yes: Manually set the initial parameters by users.

In the fitting, we use a set of Lorentz functions to represent the complex refractive index

n_{j}=n_{j}^{0}+\sum _{l=1}^{l_{max}}{\frac {A_{l}}{\nu _{l}-\nu -i\gamma _{l}}}

where

n_{j}^{0}

is input in ⑨. The number of Lorentz functions

l_{max}

, and the corresponding initial parameters

A_{l},\nu _{l},\gamma _{l}

should be determined.

By selecting

No

, it means the initial parameters are automatically guessed by the algorithm explained in Automatically determine the initial parameters in fitting procedure .

By selecting

Yes

, you can manually set

l_{max}

and

A_{l},\nu _{l},\gamma _{l}

for each Lorentz function by yourself. The units of

A_{l},\nu _{l},\gamma _{l}

are all wavenumber.

l_{max}

is up to 5.

Note:

1. Automatical mode is recommended when using ComplexRI to fit new data. The results also provide useful information for users to further fitting the data by manual mode.

2. In some cases that users want to fit the vibrational regions with multiple weak adsorption bands, the manual mode might be better to represent the very detailed spectra.

@@ 1行目: / 1行目: @@
-: [[File:Newtoppage.png|1000px]]
+: [[File:2Newtoppage.png|1500px]]
 : This is the typical snapshot of the input of ComplexRI.
-: The input of Complex contains two parts. The first part is the information of ATR-IR experimental data. The second part is the control parameters of the complex refractive index fitting procedure. Each part will be explained in the following.
+: The input of ComplexRI contains two parts. The left part is the information of ATR-IR experimental data. The right part is the control parameters of the complex refractive index fitting procedure. Each part will be explained in the following.
 ----
@@ 12行目: / 12行目: @@
 : Please upload the ATR-IR experimental data in this part. The inside should be like the following.
 : [[File:NewFILE01.png|200px]]
-: There are two rules for the format of input file.
+: If there are characters at the beginning of the file, they will be ignored. The columns of wavenumber and ATR-IR data should be separated by space or comma.
-: (1). The format of input file must be txt.
+: For instance, the csv file exported by ATR-IR can be used.
-: (2). The columns are separated by the space.
 ----
@@ 24行目: / 23行目: @@
 ----
-<div id="Input03"  style="font-size: 150%;"> ③Reflectance or Absorptance? </div>
+<div id="Input03"  style="font-size: 150%;"> ③Reflectance or Absorbance? </div>
 : Please select the type of your ATR-IR data.
 :: Reflectance(%): The Reflectance of ATR-IR spectra in the value of percentage. (Default)
 :: Reflectance:    The Reflectance of ATR-IR spectra.
-:: Absorptance:    The Absorptance of ATR-IR spectra.
+:: Absorbance:    The Absorbance of ATR-IR spectra.
 : The relationships between each data are
 :: <math> Reflectance(%)=Reflectance*100 </math>
-:: <math> Absorptance=-\log_{10}(Reflectance) </math>
+:: <math> Absorbance=-\log_{10}(Reflectance) </math>
 ----
 <div id="Input04"  style="font-size: 150%;"> ④The Substrate in ATR-IR </div>
-: Please select the substrate you used in the ATR-IR experiment. Here, we prepare the three substrates often used
+: Please select the substrate you used in the ATR-IR experiment. Here, we prepare the three substrates that often used
 :: Diamond(Refractive Index = 2.38). (Default)
 :: Zinc selenide(Refractive Index = 2.40).
 :: Germanium(Refractive Index = 4.0).
-: You can also input the refractive index of your substrate by selecting Others in the list.
+: You can also input the refractive index of your substrate by selecting Other in the list.
 :[[File:4_other.png|500px]]
@@ 48行目: / 47行目: @@
 ----
 <div id="Input06"  style="font-size: 150%;"> ⑥Select the column of your data  </div>
-: Please input the column number of the data you want to analyze in your ATR-IR file.
+: Please input the column number of the data that you want to analyze in your ATR-IR file.
 :: Wavenumber: The column number of wavenumber in your input file. (Default: 1)
 :: ATR-IR data: The column number of ATR-IR data in your input file. (Default: 2)
@@ 66行目: / 65行目: @@
 ----
 <div id="Input08"  style="font-size: 150%;"> ⑧Input the fitting range </div>
-: Please input the frequency range (in wavenumber) you want to perform the fitting. ComplexRI will fit the data only inside the range you input here.
+: Please input the frequency range (in wavenumber) inside which you want to perform the fitting. ComplexRI will only fit the data inside the range you input here.
 :: Minimum wavenumber: The lower boundary of wavenumber. (Default: 1636)
 :: Maximum wavenumber: The upper boundary of wavenumber. (Default: 1863)
@@ 73行目: / 72行目: @@
 <div id="Input09"  style="font-size: 150%;"> ⑨Refractive index of target sample in non-resonance region (<math> n_j^0 </math>) </div>
 : Please input the refractive index of the target sample (<math> n_j^0 </math>) in non-resonance region. (Default=1.360)
-: <math> n_j^0 </math> should be determined before the fitting procedure (see Equation in ⑪). In the reference paper, we use the refractive index values in the visible regions to fit Cauchy's equation.
+: A database of common liquids is prepared for reference. The determination of <math> n_j^0 </math> and some comments about it can be found in <u> [[Theory#Fitting procedure| How to Fit the ATR-IR spectra]] </u>.
-:: <math>n = A + \frac{B}{{\lambda}^2} + \frac{C}{{\lambda}^4}</math>
-: The obtained parameters <math>A, B, C</math> were used to evaluate the refractive index at 5000 wavenumber.
 ----
 <div id="Input10"  style="font-size: 150%;"> ⑩The tolerance of fitting </div>
-: Please input the tolerance of fitting procedure. The fitting will be finished when the calculated residual is less than this value.
+: Please input the tolerance of the fitting procedure. (default: 0.02)
-: The details are written in the<u> [[explanation01|explanation01]] </u>of<u> [[En/ComplexRI#Internal processing |Internal processing]]</u>.
+: The fitting will be finished when the calculated residual is less than this value. The details are described in <u> [[Theory#Fitting procedure| How to Fit the ATR-IR spectra]] </u>.
-:<span style color="red">Notice!! Fitting can not finish if this value is too small. </span>
+:: Note: Try to gradually decrease this value if the fitting results are not close to the experiments. This often happens when fit to the weak adsorption bands. Be careful that fitting can not finish if this value is too small.
 ----
@@ 90行目: / 87行目: @@
 : In the fitting, we use a set of Lorentz functions to represent the complex refractive index
 :: <math>n_j=n_j^0+\sum_{l=1}^{l_{max}} \frac{A_l}{\nu_l-\nu-i\gamma_l}</math>
-: where <math> n_j^0 </math> is input in ⑨. The number of Lorentz functions <math> l_{max} </math>, and the corresponding parameters <math> A_l, \nu_l, \gamma_l </math> should be determined.
+: where <math> n_j^0 </math> is input in ⑨. The number of Lorentz functions <math> l_{max} </math>, and the corresponding initial parameters <math> A_l, \nu_l, \gamma_l </math> should be determined.
-: By selecting <math> No </math>, it means the initial parameters are automatically guessed by the algorithm explained in the <u>[[explanation01|explanation01]] </u>of<u> [[En/ComplexRI#Internal processing |Internal processing]] </u>.
+: By selecting <math> No </math>, it means the initial parameters are automatically guessed by the algorithm explained in <u> [[Theory#Auto Fitting| Automatically determine the initial parameters in fitting procedure]] </u>.
 : By selecting <math> Yes </math>, you can manually set <math> l_{max} </math> and <math> A_l, \nu_l, \gamma_l </math> for each Lorentz function by yourself. The units of <math> A_l, \nu_l, \gamma_l </math> are all wavenumber. <math> l_{max} </math> is up to 5.
+:: Note:
+::: 1. Automatical mode is recommended when using ComplexRI to fit new data. The results also provide useful information for users to further fitting the data by manual mode.
+::: 2. In some cases that users want to fit the vibrational regions with multiple weak adsorption bands, the manual mode might be better to represent the very detailed spectra.
 : [[File:11yes.png|500px]]

「Input」の版間の差分

2022年3月4日 (金) 02:05時点における最新版

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