The pulsing structure of science: Ortega y Gasset, Saint Matthew, fractality and transfractality

By a new fractal/transfractal geometry of the Unified Scientometric Model, it is possible to demonstrate that science presents an oscillating or pulsing dynamic. It goes alternatively through two types of phases. Some phases are fractal, with crystalline networks, where the Matthew effect clearly manifests itself with regard to the most notable actors and those that provide the best contributions. The other phases are transfractal, with deformed, amorphous networks, in which the actors, considered mediocre, present greater capacity to restructure the network than the more renowned actors. The result after any transfractal deformation is a new crystalline fractal network. Behind this vision lies the Kuhn paradigms. As examples, the scientific fields of surfactants and autism have been analysed.

[1]  J. R. Cole,et al.  The Ortega Hypothesis , 1972, Science.

[2]  Rafael Bailón-Moreno,et al.  Analysis of the field of physical chemistry of surfactants with the Unified Scienctometric Model. Fit of relational and activity indicators , 2005, Scientometrics.

[3]  Derek J. de Solla Price,et al.  Science Since Babylon , 1961 .

[4]  Benoit B. Mandelbrot Addenda A L'Article “Structure Formelle des Textes et Communication” , 1955 .

[5]  T. Kuhn,et al.  The Structure of Scientific Revolutions. , 1964 .

[6]  Jean Pierre Courtial,et al.  A scientometric approach to autism based on translation sociology , 1997, Scientometrics.

[7]  Russell C. Coile,et al.  Lotka's frequency distribution of scientific productivity , 1977, J. Am. Soc. Inf. Sci..

[8]  M. Callon,et al.  Mapping the dynamics of science and technology : sociology of science in the real world , 1988 .

[9]  A. Vanraan,et al.  Fractal dimension of co-citations , 1990, Nature.

[10]  B. Latour Give me a Laboratory and 1 will raise the Word , 1983 .

[11]  Derek de Solla Price,et al.  A general theory of bibliometric and other cumulative advantage processes , 1976, J. Am. Soc. Inf. Sci..

[12]  E. Garfield Citation analysis as a tool in journal evaluation. , 1972, Science.

[13]  Arie Rip,et al.  Co-word maps of biotechnology: An example of cognitive scientometrics , 1984, Scientometrics.

[14]  Benoit B. Mandelbrot,et al.  Structure Formelle des Textes et Communication , 1954 .

[15]  E. Lorenz Deterministic nonperiodic flow , 1963 .

[16]  Eduardo Glavich Nunca hemos sido modernos. Ensayo de antropología simétrica, Bruno Latour, Madrid, Editorial Debate, 1993, 221 páginas. , 1995 .

[17]  Rafael Bailón Moreno Ingeniería del conocimiento y vigilancia tecnológica aplicada a la investigación en el campo de los tensioactivos. Desarrollo de un modelo ciencimétrico unificado , 2003 .

[18]  Rosario Ruiz Baños Cienciometría de redes. Análisis de la investigación internacional sobre arqueología mediante el método de las palabras asociadas (1980-1993) , 1997 .

[19]  Anthony F. J. van Raan,et al.  Fractal geometry of information space as represented by co-citation clustering , 1991, Scientometrics.

[20]  Rafael Bailón-Moreno,et al.  Structure and dynamics of scientific networks. Part I: Fundamentals of the quantitative model of translation , 1999, Scientometrics.

[21]  R. Merton The Matthew Effect in Science , 1968, Science.

[22]  M. Callon,et al.  Mapping the Dynamics of Science and Technology , 1986 .

[23]  Louis Gourdon,et al.  Mapping the Dynamics of Research on Autism , 1999 .

[24]  Benoit B. Mandelbrot,et al.  Fractal Geometry of Nature , 1984 .

[25]  Bruno Latour Ciencia en acción: cómo seguir a los científicos e ingenieros a través de la sociedad , 1992 .

[26]  Rafael Bailón-Moreno,et al.  The unified scientometric model. Fractality and transfractality , 2005, Scientometrics.

[27]  Abraham Bookstein,et al.  Informetric distributions, part II: Resilience to ambiguity , 1990, J. Am. Soc. Inf. Sci..

[28]  Rafael Bailón-Moreno,et al.  Structure and dynamics of scientific networks. Part II: The new Zipf's law, the clusters of co-citations and the model of the descriptor presence , 1999, Scientometrics.

[29]  Alfred J. Lotka,et al.  The frequency distribution of scientific productivity , 1926 .

[30]  Juan Manuel Iranzo Amatriain,et al.  La vida en el laboratorio. La construcción de los hechos científicos: reseña , 1995 .

[31]  Rosario Ruiz-Baños Las traducciones dinámicas de las series temáticas: propuesta de una nueva clasificación , 1999 .