What's the point of this conference? Modeling the physics of team formation at meetings

Daniel M Abrams; Emma R Zajdela; Richard J Wiener; Andrew L Feig; Kimberly Huynh; Andy Wen

What's the point of this conference? Modeling the physics of team formation at meetings

ORAL · Invited

Abstract

How do scientific teams form? While this question has traditionally been the subject of qualitative study, new data sets have allowed us to develop and test quantitative models. Motivated by the process of chemical catalysis, we present a differential equation based model for the generation of new collaborations at conferences, quantify its performance, and compare it with other candidate models. We further examine the impact of conference modality---in-person or virtual---on model performance and on more general properties of scientific social networks.

^* The authors acknowledge the United States Department of Agriculture NACA 58-3022-0-005 and the Research Corporation for Science Advancement for providing data and assistance. E.R.Z thanks the National Science Foundation Graduate Research Fellowship Program DGE-184216 and the Northwestern Buffett Institute Global Impacts Graduate Research Fellowship for financial support.

March 7, 2024, 1:06 PM – March 7, 2024, 1:42 PM

Publication: Zajdela, E. R., Huynh, K., Wen, A. T., Feig, A. L., Wiener, R. J., & Abrams, D. M. (2022). Dynamics of social interaction: Modeling the genesis of scientific collaboration. Physical Review Research, 4(4), L042001.

Presenters

Daniel M Abrams

Northwestern University

Authors

Daniel M Abrams

Northwestern University
Emma R Zajdela

Princeton University, Northwestern University
Richard J Wiener

Research Corporation for Science Advancement
Andrew L Feig

Research Corporation for Science Advancement
Kimberly Huynh

Research Corporation for Science Advancement
Andy Wen

Northwestern University