Discovering emergent connections in quantum physics research via dynamic word embeddings

November 10, 2024 ยท Declared Dead ยท ๐Ÿ› Machine Learning: Science and Technology

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Authors Felix Frohnert, Xuemei Gu, Mario Krenn, Evert van Nieuwenburg arXiv ID 2411.06577 Category cs.LG: Machine Learning Cross-listed cs.AI, quant-ph Citations 3 Venue Machine Learning: Science and Technology Last Checked 4 months ago
Abstract
As the field of quantum physics evolves, researchers naturally form subgroups focusing on specialized problems. While this encourages in-depth exploration, it can limit the exchange of ideas across structurally similar problems in different subfields. To encourage cross-talk among these different specialized areas, data-driven approaches using machine learning have recently shown promise to uncover meaningful connections between research concepts, promoting cross-disciplinary innovation. Current state-of-the-art approaches represent concepts using knowledge graphs and frame the task as a link prediction problem, where connections between concepts are explicitly modeled. In this work, we introduce a novel approach based on dynamic word embeddings for concept combination prediction. Unlike knowledge graphs, our method captures implicit relationships between concepts, can be learned in a fully unsupervised manner, and encodes a broader spectrum of information. We demonstrate that this representation enables accurate predictions about the co-occurrence of concepts within research abstracts over time. To validate the effectiveness of our approach, we provide a comprehensive benchmark against existing methods and offer insights into the interpretability of these embeddings, particularly in the context of quantum physics research. Our findings suggest that this representation offers a more flexible and informative way of modeling conceptual relationships in scientific literature.
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