Anomalous diffusion in the citation time series of scientific publications

Maryam Zamani; Erez Aghion; Peter Pollner; Tamas Vicsek; Holger Kantz

doi:10.1088/2632-072X/ac24f1

Anomalous diffusion in the citation time series of scientific publications

Maryam Zamani
, Erez Aghion
, Peter Pollner
, Tamas Vicsek
, Holger Kantz

Max-Planck-Institute for the Physics of Complex Systems
Eötvös Loránd University

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

We analyze the citation time-series of manuscripts in three different fields of science; physics, social science and technology. The evolution of the time-series of the yearly number of citations, namely the citation trajectories, diffuse anomalously, their variance scales with time ? t2H, where H = 1/2. We provide detailed analysis of the various factors that lead to the anomalous behavior: non-stationarity, long-ranged correlations and a fat-tailed increment distribution. The papers exhibit a high degree of heterogeneity across the various fields, as the statistics of the highest cited papers is fundamentally different from that of the lower ones. The citation data is shown to be highly correlated and non-stationary; as all the papers except the small percentage of them with high number of citations, die out in time.

Original language	English
Article number	035024
Journal	Journal of Physics: Complexity
Volume	2
Issue number	3
DOIs	https://doi.org/10.1088/2632-072X/ac24f1
State	Published - Sep 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2021 The Author(s).

Keywords

Anomalous diffusion
Citation trajectory
Non-stationarity

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10.1088/2632-072X/ac24f1

Cite this

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abstract = "We analyze the citation time-series of manuscripts in three different fields of science; physics, social science and technology. The evolution of the time-series of the yearly number of citations, namely the citation trajectories, diffuse anomalously, their variance scales with time ? t2H, where H = 1/2. We provide detailed analysis of the various factors that lead to the anomalous behavior: non-stationarity, long-ranged correlations and a fat-tailed increment distribution. The papers exhibit a high degree of heterogeneity across the various fields, as the statistics of the highest cited papers is fundamentally different from that of the lower ones. The citation data is shown to be highly correlated and non-stationary; as all the papers except the small percentage of them with high number of citations, die out in time.",

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AU - Zamani, Maryam

AU - Aghion, Erez

AU - Pollner, Peter

AU - Vicsek, Tamas

AU - Kantz, Holger

PY - 2021/9

Y1 - 2021/9

N2 - We analyze the citation time-series of manuscripts in three different fields of science; physics, social science and technology. The evolution of the time-series of the yearly number of citations, namely the citation trajectories, diffuse anomalously, their variance scales with time ? t2H, where H = 1/2. We provide detailed analysis of the various factors that lead to the anomalous behavior: non-stationarity, long-ranged correlations and a fat-tailed increment distribution. The papers exhibit a high degree of heterogeneity across the various fields, as the statistics of the highest cited papers is fundamentally different from that of the lower ones. The citation data is shown to be highly correlated and non-stationary; as all the papers except the small percentage of them with high number of citations, die out in time.

AB - We analyze the citation time-series of manuscripts in three different fields of science; physics, social science and technology. The evolution of the time-series of the yearly number of citations, namely the citation trajectories, diffuse anomalously, their variance scales with time ? t2H, where H = 1/2. We provide detailed analysis of the various factors that lead to the anomalous behavior: non-stationarity, long-ranged correlations and a fat-tailed increment distribution. The papers exhibit a high degree of heterogeneity across the various fields, as the statistics of the highest cited papers is fundamentally different from that of the lower ones. The citation data is shown to be highly correlated and non-stationary; as all the papers except the small percentage of them with high number of citations, die out in time.

KW - Anomalous diffusion

KW - Citation trajectory

KW - Non-stationarity

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Anomalous diffusion in the citation time series of scientific publications

Abstract

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Keywords

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