E
Eshel Ben-Jacob
Researcher at Tel Aviv University
Publications - 420
Citations - 28503
Eshel Ben-Jacob is an academic researcher from Tel Aviv University. The author has contributed to research in topics: Josephson effect & Superconducting tunnel junction. The author has an hindex of 77, co-authored 420 publications receiving 25767 citations. Previous affiliations of Eshel Ben-Jacob include University of Michigan & University of California, San Diego.
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Journal ArticleDOI
Novel Type of Phase Transition in a System of Self-Driven Particles
TL;DR: Numerical evidence is presented that this model results in a kinetic phase transition from no transport to finite net transport through spontaneous symmetry breaking of the rotational symmetry.
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The formation of patterns in non-equilibrium growth
TL;DR: In this paper, the interplay between the macroscopic driving force associated with the phase transition and the microscopic interfacial dynamics was studied, leading to complex patterns which are generically similar to those found in viscous fingering, aggregation and electrochemical deposition.
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Generic modelling of cooperative growth patterns in bacterial colonies
TL;DR: It is shown that a simple model of bacterial growth can reproduce the salient features of the observed growth patterns, and incorporates random walkers, representing aggregates of bacteria, which move in response to gradients in nutrient concentration and communicate with each other by means of chemotactic 'feedback.
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Implications of the Hybrid Epithelial/Mesenchymal Phenotype in Metastasis
Mohit Kumar Jolly,Marcelo Boareto,Marcelo Boareto,Bin Huang,Dongya Jia,Mingyang Lu,Eshel Ben-Jacob,Eshel Ben-Jacob,José N. Onuchic,Herbert Levine +9 more
TL;DR: The operating principles of the core regulatory network for EMT/MET that acts as a “three-way” switch giving rise to three distinct phenotypes – E, M and hybrid E/M are reviewed and a theoretical framework that can elucidate the role of many other players in regulating epithelial plasticity is presented.
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Cooperative self-organization of microorganisms
TL;DR: This work presents a wealth of beautiful patterns formed during colony development of various microorganisms and for different environmental conditions and demonstrates how communication leads to self-organization via cooperative behaviour of the cells.