Description
The attached data underpins the publication "Optimisation of the synthesis of CuCrO2 using molecular beam epitaxy". The following file types and formats are included:
- Reflective High Energy Electron diffraction images: .img/.avi/.imm (can be open using kSA RHEED software) & .png (can be opened with any standard image viewing software).
- RHEED intensity line cuts: .png (open using standard image viewing software)
- RHEED intensity oscillations: .kdt (opening using kSA RHEED software)
- X-ray diffraction data: .brml (opened using PANanalytical or other proprietary software), .Eva (opened using Brucker Diffrac.EVA software)
X-ray diffraction pattern images: .png (open with standard image viewing software)
- Python programs for data analysis: .ipynb (open with Jupyter Notebook or other python software)
- Atomic Force Microscopy images: .png (open with standard image viewing software)
- Reflective High Energy Electron diffraction images: .img/.avi/.imm (can be open using kSA RHEED software) & .png (can be opened with any standard image viewing software).
- RHEED intensity line cuts: .png (open using standard image viewing software)
- RHEED intensity oscillations: .kdt (opening using kSA RHEED software)
- X-ray diffraction data: .brml (opened using PANanalytical or other proprietary software), .Eva (opened using Brucker Diffrac.EVA software)
X-ray diffraction pattern images: .png (open with standard image viewing software)
- Python programs for data analysis: .ipynb (open with Jupyter Notebook or other python software)
- Atomic Force Microscopy images: .png (open with standard image viewing software)
| Date made available | 30 Apr 2026 |
|---|---|
| Publisher | University of St Andrews |
| Date of data production | 2017 - 2025 |
Student theses
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Optimisation of the synthesis of CuCrOâ‚‚ using molecular beam epitaxy
Crosby, J. (Author), King, P. (Supervisor), 30 Jun 2025Student thesis: Doctoral Thesis (PhD)