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fahad abdullah
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I have the XRD image of a PZT thin film. While trying to analyze it with JADE software I can not find the proper space group.So it is not giving me the answer I am looking for. I assumed the crystal system to be cubic.
fahad abdullah said:I have the XRD image of a PZT thin film. While trying to analyze it with JADE software I can not find the proper space group.So it is not giving me the answer I am looking for. I assumed the crystal system to be cubic.
Accuracy in XRD analysis can be determined by checking for the presence of characteristic peaks for PZT in the diffraction pattern. These peaks should match with the expected positions and intensities based on the crystal structure of PZT. Additionally, consistency in results from multiple scans and replicates can also indicate accuracy.
Some common sources of error in XRD analysis on PZT thin film include sample preparation issues (e.g. improper orientation or thickness), instrument calibration errors, and background noise. It is important to carefully follow sample preparation protocols and regularly check and calibrate the instrument to minimize these errors.
The peaks in an XRD pattern correspond to the diffraction of X-rays by the crystal lattice of the sample. In PZT, the peaks represent the positions of the atoms in the crystal structure. By comparing the peak positions and intensities to reference data, the crystal structure and orientation of the sample can be determined.
Yes, XRD analysis on PZT thin film can be used for quantitative analysis. By measuring the intensity of the peaks and comparing it to a reference, the amount of each phase in the sample can be determined. However, it is important to note that XRD is a semi-quantitative technique and other methods may be needed for more accurate quantification.
The resolution of XRD analysis can be improved by adjusting the instrument parameters, such as the divergence and receiving slits, to narrow the width of the diffraction peaks. Additionally, using a higher energy X-ray source or conducting the analysis at lower temperatures can also improve resolution. However, it is important to balance resolution with signal-to-noise ratio for accurate analysis.