Abstract
The modern science has become more complex and interdisciplinary in its nature which might encourage researchers to be more collaborative and get engaged in larger collaboration networks. Various aspects of collaboration networks have been examined so far to detect the most determinant factors in knowledge creation and scientific production. One of the network structures that recently attracted much theoretical attention is called small world. It has been suggested that small world can improve the information transmission among the network actors. In this paper, using the data on 12 periods of journal publications of Canadian researchers in natural sciences and engineering, the co-authorship networks of the researchers are created. Through measuring small world indicators, the small worldiness of the mentioned network and its relation with researchers’ productivity, quality of their publications, and scientific team size are assessed. Our results show that the examined co-authorship network strictly exhibits the small world properties. In addition, it is suggested that in a small world network researchers expand their team size through getting connected to other experts of the field. This team size expansion may result in higher productivity of the whole team as a result of getting access to new resources, benefitting from the internal referring, and exchanging ideas among the team members. Moreover, although small world network is positively correlated with the quality of the articles in terms of both citation count and journal impact factor, it is negatively related with the average productivity of researchers in terms of the number of their publications.
Highlights
The world is really small! This comes to our minds when a mutual acquaintance is found with someone who we do not know at all
Since an annual increase was expected in the number of researchers, the steady line indicating the number of researchers doi:10.1371/journal.pone.0121129.g002
Between 1996 and 2000 might be due to the SCOPUS data that seems to be more integrated and complete for the recent years. Another reason for the steady trend during the first five years could be the immaturity of the examined collaboration network in a way that after a couple of years new researchers started joining the network with a faster pace
Summary
The world is really small! This comes to our minds when a mutual acquaintance is found with someone who we do not know at all. Our main objective is first to analyze if the examined network resembles the small world property and to study its relation with the scientific output, the quality of the produced papers and the team size. First the existence of the small world properties in the co-authorship network of these researchers was examined and the interrelations between the small world variables and quantity of the scientific output (measured by the number of publications), quality of the articles (measured by the normalized citation rate and by the average impact factor of the journals) and size of the research teams (represented by the average number of authors per paper) were statistically investigated. The small world variable is calculated based on the clustering coefficient and the path length: It is a measure of the connections between pairs of vertices and is related to the average degree of the network. The reason is that higher number of researchers in a network can increase the chance of higher network connectivity and the chance of higher collaboration among the researchers that may have an effect on our dependent variables
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