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1. Co-Authorship Maps to Support Leadership Selection

   https://doi.org/10.13023/VG16-XQ81  

   Chen, Robert HC (April 2024, University of Kentucky Libraries)

   VOSViewer co-authorship mapping is a powerful tool typically used for analyzing research collaboration. Users provide publication data and VOSViewer produces a map where authors are plotted on a 2-dimensional map based on how often they are in the author lists of the same publication. In this presentation, I propose a series of tweaks to the input data that can leverage co-authorship maps to support leadership selection based on how often candidates co-author papers with their institutional peers and some of the attributes of these papers. I will suggest how best to interpret the resulting maps and address the major assumptions that must be kept in mind when using these maps for this purpose. Lastly, I will discuss the lessons learned when we offered such maps to support a series of internal leadership selections for Canada’s largest research hospital. Presented at the 2024 Research Analytics Summit in Albuquerque, NM 

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2. Where is Computer Science Education Research Happening?

   https://doi.org/10.1145/3408877.3432375  

   Lunn, Stephanie; Marques Samary, Maíra; Peterfreund, Alan (March 2021, SIGCSE '21: Proceedings of the 52nd ACM Technical Symposium on Computer Science Education)

   null (Ed.)

   Although computer science education (CSEd) is growing rapidly as a discipline, presently there are a limited number of formal programs available for students to pursue graduate degrees. To explore what options exist, we sought to develop a better understanding of the researchers and institutions currently working in CSEd. We collected publication data between 2015 and 2020 from the Innovation and Technology in Computer Science Education (ITiCSE) and ACM International Computing Education Research (ICER) conferences, and from the ACM Transactions on Computing Education (TOCE) journal. Using a total of 1,099 publications, we analyzed the authorship blocks and their affiliations. We created a comprehensive database, used for analysis on recent contributions to CSEd research. Among other findings, we observed that 2,068 distinct authors contributed, spanning 578 global institutions. From these, 963 of the authors came from 236 distinct universities in the United States. Moreover, we found that most often, new growth from international contributions resulted from the participation of additional universities, whereas in the United States most growth was the result of new contributors from the same universities. The results of this research are intended to encourage global collaborations, to provide an informative guide about recent publications in the field, and also to serve as a guidepost for graduate recruitment and further exploration into CSEd research and programs. 

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3. A Stylometric Application of Large Language Models

   Stropkay, Harrison F; Chen, Jiayi; Latifi, Mohammad J; Rockmore, Daniel N; Manning, Jeremy R (October 2025, arXivorg)

   We show that large language models (LLMs) can be used to distinguish the writings of different authors. Specifically, an individual GPT-2 model, trained from scratch on the works of one author, will predict held-out text from that author more accurately than held-out text from other authors. We suggest that, in this way, a model trained on one author's works embodies the unique writing style of that author. We first demonstrate our approach on books written by eight different (known) authors. We also use this approach to confirm R. P. Thompson's authorship of the well-studied 15th book of the Oz series, originally attributed to F. L. Baum. 

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4. Roadmap on embodying mechano-intelligence and computing in functional materials and structures

   https://doi.org/10.1088/1361-665X/adb7aa  

   Alù, Andrea; Arrieta, Andres F; Dottore, Emanuela Del; Dickey, Michael; Ferracin, Samuele; Harne, Ryan; Hauser, Helmut; He, Qiguang; Hopkins, Jonathan B; Hyatt, Lance P; et al (June 2025, Smart Materials and Structures)

   This is a roadmap article with multiple contributors on different aspects of embodying intelligence and computing in the mechanical domain of functional materials and structures. Overall, an IOP roadmap article is a broad, multi-author review with leaders in the field discussing the latest developments, commissioned by the editorial board. The intention here is to cover various topics of adaptive structural and material systems with mechano-intelligence in the overall roadmap, with twelve sections in total. These sections cover topics from materials to devices to systems, such as computational metamaterials, neuromorphic materials, mechanical and material logic, mechanical memory, soft matter computing, physical reservoir computing, wave-based computing, morphological computing, mechanical neural networks, plant-inspired intelligence, pneumatic logic circuits, intelligent robotics, and embodying mechano-intelligence for engineering functionalities via physical computing. In this paper, we view all the sections with equal contributions to the overall roadmap article and thus list the authorship on the front page via alphabetical order of their last names. On the other hand, for each individual section, the authors decide on their own the order of authorship. 

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5. About Roy Glauber

   https://doi.org/10.1002/ntls.20220064  

   Friedrich, Bretislav; Kleppner, Daniel; Herschbach, Dudley (July 2023, Natural Sciences)

   Abstract We recount the life, work, and legacy of the theoretical physicist Roy Glauber (1925–2018). Admitted to Harvard at age 16, called upon to participate in the Manhattan Project at age eighteen, and appointed to the Harvard Physics faculty at age 29, Glauber is credited with seminal contributions to three separate fields of physics: nuclear scattering, statistical physics, and foundational work in quantum optics, which earned him the 2005 Nobel Prize in Physics. Over decades, Glauber was also a dedicated teacher of high‐school, college, and graduate students. His pedagogical gifts are reflected in his lucid papers that read as if they were written yesterday. Key pointsperspective on the life, work, and legacy of the 2005 Physics Nobel laureate Roy Glauber (1925–2018)impact of Glauber's contributions on large swaths of physics, from nuclear to optical to condensed matterGlauber's work in quantum optics has nurtured burgeoning areas of quantum science and engineering 

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