Use FFT to Calculate Polymer Properties

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Ryan
Ryan am 1 Sep. 2016
Kommentiert: Star Strider am 18 Nov. 2020
I have a polymer characterized by a transmission terahertz time-domain spectroscopy (THz-TDS) in the frequency range extending from 0 to 3.0 THz. And I have measured time-domain data in a .csv file (the attachment “waveform.csv”), with column A (Delay, unit: ps), column B (Reference Amplitude, unit: nA) and column C (Sample Amplitube, unit: nA).
I tried to use Matlab to calculate polymer properties (the attachment “Calculate_Substrate_Properties.m”), according to Part II.2 in a published article (Y.-S. Jin, G.-J. Kim, and S.-G. Jeon, “Terahertz dielectric properties of polymers,” J. Korean Phys. Soc., vol. 49, no. 2, pp. 513–517, 2006) (the attachment “Terahertz Dielectric Properties of Polymers.pdf”).
The polymer thickness is 0.5mm. Calculated results are not as same as expectations in the attachment (the attachment “Results.pdf”). I think it is due to wrong phase calculations. Could anyone help and tell me what problem there is in my program?
  2 Kommentare
Rik
Rik am 18 Nov. 2020
Before you attempt to edit away your question: I made a backup here, so anyone will be able to restore your edit.
What do you think makes your question not appropriate?
Star Strider
Star Strider am 18 Nov. 2020
Rik — Thank you!
It turns out that I also saved the ‘Ryan waveform.CSV’ file and am attaching it to this Comment.

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Antworten (2)

Star Strider
Star Strider am 1 Sep. 2016
See the R2015a documentation for fft for some guidance. It discusses appropriate ways to define the amplitude and frequency of the Fourier-transformed data.
This aspect of physical chemistry is not an area of my expertise, so I’m not going to attempt to understand what you’re doing, even after making an effort to understand equations (1)-(6). However some of the magnitude differences between your data and your expected data could be explained by your not normalising your Fourier transformed data by the length of the data.
See if this helps:
data_len = size(waveform.data,1); % Row Length Of Data Matrix
reference_spectra = fft(waveform.data(:, 2))/data_len;
Do the same normalisation by ‘data_len’ for your other fft calls.
Beyond that, I’m lost. I’ll leave you to the physical chemistry. (I was an undergraduate Chemistry major, but that was back in the phlogiston era.)
  5 Kommentare
Star Strider
Star Strider am 5 Sep. 2016
My pleasure.
The data extraction step and code is to help anyone who has the necessary background to understand what you’re doing without the extra explanation that I require.
Ryan
Ryan am 5 Sep. 2016
Oh. Thanks!

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tsz ki liu
tsz ki liu am 9 Jan. 2019
do you have slove your problem Ryan ?
add my email ken117702@gmail.com

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