SCHUMI-MAREČEK, David, Florian BERTRAM, Petr MIKULÍK, Devanshu VARSHNEY, Jiří NOVÁK and Stefan KOWARIK. Millisecond X-ray reflectometry and neural network analysis: unveiling fast processes in spin coating. Journal of Applied Crystallography. International Union of Crystallography, 2024, vol. 57, No 2, p. 314-323. ISSN 1600-5767. Available from: https://dx.doi.org/10.1107/S1600576724001171. |
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@article{2394837, author = {SchumiandMareček, David and Bertram, Florian and Mikulík, Petr and Varshney, Devanshu and Novák, Jiří and Kowarik, Stefan}, article_number = {2}, doi = {http://dx.doi.org/10.1107/S1600576724001171}, keywords = {millisecond XRR; neural network analysis; spin coating; X-ray reflectometry; X-ray reflectometry}, language = {eng}, issn = {1600-5767}, journal = {Journal of Applied Crystallography}, title = {Millisecond X-ray reflectometry and neural network analysis: unveiling fast processes in spin coating}, url = {https://journals.iucr.org/j/issues/2024/02/00/jo5099/index.html}, volume = {57}, year = {2024} }
TY - JOUR ID - 2394837 AU - Schumi-Mareček, David - Bertram, Florian - Mikulík, Petr - Varshney, Devanshu - Novák, Jiří - Kowarik, Stefan PY - 2024 TI - Millisecond X-ray reflectometry and neural network analysis: unveiling fast processes in spin coating JF - Journal of Applied Crystallography VL - 57 IS - 2 SP - 314-323 EP - 314-323 PB - International Union of Crystallography SN - 16005767 KW - millisecond XRR KW - neural network analysis KW - spin coating KW - X-ray reflectometry KW - X-ray reflectometry UR - https://journals.iucr.org/j/issues/2024/02/00/jo5099/index.html N2 - X-ray reflectometry (XRR) is a powerful tool for probing the structural characteristics of nanoscale films and layered structures, which is an important field of nanotechnology and is often used in semiconductor and optics manufacturing. This study introduces a novel approach for conducting quantitative high-resolution millisecond monochromatic XRR measurements. This is an order of magnitude faster than in previously published work. Quick XRR (qXRR) enables real time and in situ monitoring of nanoscale processes such as thin film formation during spin coating. A record qXRR acquisition time of 1.4 ms is demonstrated for a static gold thin film on a silicon sample. As a second example of this novel approach, dynamic in situ measurements are performed during PMMA spin coating onto silicon wafers and fast fitting of XRR curves using machine learning is demonstrated. This investigation primarily focuses on the evolution of film structure and surface morphology, resolving for the first time with qXRR the initial film thinning via mass transport and also shedding light on later thinning via solvent evaporation. This innovative millisecond qXRR technique is of significance for in situ studies of thin film deposition. It addresses the challenge of following intrinsically fast processes, such as thin film growth of high deposition rate or spin coating. Beyond thin film growth processes, millisecond XRR has implications for resolving fast structural changes such as photostriction or diffusion processes. ER -
SCHUMI-MAREČEK, David, Florian BERTRAM, Petr MIKULÍK, Devanshu VARSHNEY, Jiří NOVÁK and Stefan KOWARIK. Millisecond X-ray reflectometry and neural network analysis: unveiling fast processes in spin coating. \textit{Journal of Applied Crystallography}. International Union of Crystallography, 2024, vol.~57, No~2, p.~314-323. ISSN~1600-5767. Available from: https://dx.doi.org/10.1107/S1600576724001171.
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