Explainable Artificial Intelligence Approach to Identify the Origin of Phonon-Assisted Emission in WSe2 Monolayeropen access
- Authors
- Yoo, Jaekak; Cho, Youngwoo; Jeong, Byeonggeun; Choi, Soo Ho; Kim, Ki Kang; Lim, Seong Chu; Lee, Seung Mi; Choo, Jaegul; Jeong, Mun Seok
- Issue Date
- Jul-2023
- Publisher
- WILEY
- Keywords
- correlative spectroscopy; deep learning; density functional theory; explainable artificial intelligence; tungsten diselenide
- Citation
- ADVANCED INTELLIGENT SYSTEMS, v.5, no.7, pp.1 - 9
- Indexed
- SCIE
SCOPUS
- Journal Title
- ADVANCED INTELLIGENT SYSTEMS
- Volume
- 5
- Number
- 7
- Start Page
- 1
- End Page
- 9
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/189589
- DOI
- 10.1002/aisy.202200463
- Abstract
- The application of explainable artificial intelligence in nanomaterial research has emerged in the past few years, which has facilitated the discovery of novel physical findings. However, a fundamental question arises concerning the physical insights presented by deep neural networks; the model interpretation results have not been carefully evaluated. Herein, explainable artificial intelligence and quantum mechanical calculations is bridged to investigate the correlation between light scattering and emission in a WSe2 monolayer. Convolutional neural networks using light scattering and emission data are first trained, while expecting the networks to determine the relationships between them. The trained models are interpreted and the specific phonon contribution during the exciton relaxation process is derived. Finally, the findings are independently evaluated through quantum mechanical calculations, such as the Born-Oppenheimer molecular dynamics simulation and density functional perturbation theory. The study provides reliable fundamental physical insight by evaluating the results of neural networks and suggests a novel methodology that can be applied in materials science.
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