Research Publications

( Using the drop-down menu on the right to select subjects. )

Books

  1. A.-L. Barab á si, H. E. Stanley
    Fractal Concepts in Surface Growth
    (Cambridge University Press, Cambridge, 1995).

  2. A.-L. Barab á si, M. Krishnamurthy, F. Liu, T. Pearsall (eds.)
    Epitaxial Growth – Principles and Applications
    (Materials Research Society, Vol. 570, Werrendale, PA, 1999).

  3. J. Mirecki Millunchick, A.-L. Barabási, N. A. Modine, E. D. Jones (eds.)
    Morphological and Compositional Evolution of Heteroepitaxial Semiconductor Thin Films
    (Materials Research Society, Vol. 618, Werrendale, PA, 2000).

  4. A.-L. Barabási
    Linked: The New Science of Networks
    (Perseus, Cambridge, MA, 2002) [available in Check, Chinese, Finish, Hebrew, Hungarian, Italian, Japanese, Korean, Turkish].

  5. M. Newman, D. Watts, A.-L. Barabási
    The Structure and Dynamics of Networks
    (Princeton University Press, 2006).

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Review Articles

  1. A.-L. Barabási
    The physics of the Web
    Physics World 14, 33-38 (2001).

  2. R. Albert, A.-L. Barabási
    Statistical mechanics of complex networks
    Reviews of Modern Physics 74, 47-97 (2002).

  3. Z.N. Oltvai, A.-L. Barabási
    Life’s complexity pyramid
    Science 298, 763-764 (2002).

  4. A.-L. Barabási, E. Bonabeau
    Scale-free networks
    Scientific American 288, 60-69 (2003).

  5. A.-L. Barabási, Z.N. Oltvai
    Network Biology: Understanding the cell’s functional organization
    Nature Reviews Genetics 5, 101-113 (2004).

  6. A.-L. Barabási
    Taming complexity
    Nature Physics 1, 68-70 (2005).

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Book Chapters

  1. D. Futer, A.-L. Barabási, S. V. Buldyrev, S. Havlin, H. Makse
    Rough surfaces, in Fractals in Science (Springer-Verlag, New York, 1994).

  2. J.K. Furdyna, S. Lee, A.-L. Barabási, J.L. Merz
    Self-Organized Low-Dimensional II-VI Nanostructures, in II-VI Semiconductor Materials and Their Applications, edited by M.C. Tamargo (Gordon and Breach Science Publishers, 1999).

  3. A.-L. Barabási
    Emergence of scaling in complex networks in, Handbook of Graphs and Networks (Wiley VHC, Weinheim, 2003).

  4. A.-L. Barabási, Z. Dezso, E. Ravasz, S.-H. Yook, Z. Oltvai
    Scale-Free and hierarchical structures in complex networks, Modeling of Complex Systems: Seventh Granada Lectures, Spain (2002) (AIP, Melville New York, 2003).

  5. S. Wuchty, E. Ravasz, A.-L. Barabási
    The Architecture of Biological Networks, in T.S. Deisboeck, J. Yasha Kresh and T.B. Kepler (eds.) Complex Systems in Biomedicine (Kluwer Academic Publishing, New York, 2003).

  6. A.-L. Barabási, Z. N. Oltvai, S. Wuchty
    Part IV: Biological Networks, in E. Ben-Naim, H. Frauenfelder, Z. Toroczkai (eds.) Complex Networks, Lect. Notes Phys., 650 (Springer, Berlin Heidelberg, 2004).

  7. A.-L. Barabási
    Science of Networks from Society to the Web in Kristof Nyiri (ed.), A Sense of Place: The Global and the Local in Mobile Communication (Passagen Verlag, Vienna, 2005).

  8. E. Almaas and A.-L. Barabási
    The Architecture of Complexity: From the WWW to Cellular Metabolism
    in A.T. Skjeltorp and A. V. Belushkin (eds.)
    Dynamics of Complex Interconnected Systems: Networks and Bioprocesses
    NATO Sciences Series, Springer and IOS Press Amsterdam (2006).


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Chaos and Fractals

  1. A.-L. Barabási, L. Nitsch, I.A. Dorobantu
    Supertracks and nth order windows in the chaotic regime
    Physics Letters A 139, 53-56 (1989).

  2. A.-L. Barabási, L. Nitsch, I.A. Dorobantu
    On crises and supertracks: An attempt of a unified theory
    Revue Roumanie de Physique 34, 353-357 (1989).

  3. A.-L. Barabási, T. Vicsek
    Tracing a diffusion-limited-aggregate: Self-affine versus self-similar scaling
    Physical Review A 41, 6881-6883 (1990).

  4. A.-L. Barabási, T. Vicsek
    Self-similarity of the loop structure of diffusion-limited-aggregates
    Journal of Physics A 23, L729-L733 (1990).

  5. A.-L. Barabási, T. Vicsek
    Multifractality of self-affine fractals
    Physical Review A 44, 2730-2733 (1991).

  6. A.-L. Barabási, P. Szepfalusy, T. Vicsek
    Multifractal spectra of multi-affine functions
    Physica A 178, 17-28 (1991).

  7. T. Vicsek, A.-L. Barabási
    Multi-affine model for the velocity distribution in fully turbulent flows
    Journal of Physics A 24, L845-L851 (1991).

  8. A.-L. Barabási, R. Bourbonnais, M. Jensen, J. Kertesz, T. Vicsek, Y.-C. Zhang
    Multifractality of growing surfaces
    Physical Review A 45, R6951-R6954 (1992).


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Rough Surface

  1. A.-L. Barabási, T. Vicsek
    Multifractality of self-affine fractals
    Physical Review A 44, 2730-2733 (1991).

  2. A.-L. Barabási
    A model for the temporal fluctuations of the surface width: A stochastic one-dimensional map
    Journal of Physics A 24, L1013-L1019 (1991).

  3. A.-L. Barabási, R. Bourbonnais, M. Jensen, J. Kertesz, T. Vicsek, Y.-C. Zhang
    Multifractality of growing surfaces
    Physical Review A 45, R6951-R6954 (1992).

  4. S.V. Buldyrev, A.-L. Barabási, F. Caserta, S. Havlin, H.E. Stanley, T. Vicsek
    Anomalous interface roughening in porous media: Experiment and model
    Physical Review A 44, R8313-R8316 (1992).

  5. A.-L. Barabási, M. Araujo, H.E. Stanley
    Three-dimensional Toom model: Connection to the Kardar-Parisi-Zhang Equation
    Physical Review Letters 68, 3729-3732 (1992).

  6. A.-L. Barabási
    Dynamic scaling of coupled nonequilibrium interfaces
    Physical Review A 46, R2977- R2980 (1992).

  7. S.V. Buldyrev, A.-L. Barabási, S. Havlin, J. Kertesz, H.E. Stanley, H.S. Xenias
    Anomalous roughening of interfaces in porous media: Experiment and model
    in International Conference on Fractals and Disordered Systems, Hamburg, Germany, July 1992; Physica A 191, 220-226 (1992).

  8. A.-L. Barabási
    Surfactant-mediated growth of nonequilibrium interfaces
    Physical Review Letters 70, 4102-4105 (1993).

  9. A.-L. Barabási
    Surfactant-mediated surface growth: Nonequilibrium theory
    Fractals 1, 846-859 (1993).

  10. L.A.N. Amaral, A.-L. Barabási, S. V. Buldyrev, S. Havlin, H. E. Stanley
    Anomalous interface roughening: The role of a gradient in the density of pinning sites, Fractals 1, 818-826 (1993).

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  11. L.A.N. Amaral, A.-L. Barabási, S. V. Buldyrev, S. Havlin, H. E. Stanley
    A new exponent characterizing the effect of evaporation on imbibition experiments
    Physical Review Letters 72, 641-644 (1994).

  12. L.A.N. Amaral, A.-L. Barabási, H. E. Stanley
    Universality classes for interface growth with quenched disorder
    Physical Review Letters 73, 62-65 (1994).

  13. L.A.N. Amaral, A.-L. Barabási, S. V. Buldyrev, S.T. Harrington, S. Havlin, R. Sadr-Lahijani, H. E. Stanley
    Avalanches and the directed percolation depinning model: Experiments, simulations and theory
    Physical Review E 51, 4655-4673 (1995).

  14. L.A.N. Amaral, A.-L. Barabási, H.A. Makse, H. E. Stanley
    Scaling properties of driven interfaces in disordered media
    Physical Review E 52, 4087-5005 (1995).

  15. A.-L. Barabási, G. Grinstein, M.A. Munoz
    Directed surfaces in disordered media
    Physical Review Letters 76, 1481-1484 (1996).

  16. H. A. Makse, A.-L. Barabási, H. E. Stanley
    Elastic string in a random medium
    Physical Review E 53 6573-6576 (1996).

  17. A.-L. Barabási, E. Kaxiras
    Dynamic scaling in conserved systems with coupled fields: Application to surfactant-mediated growth
    Europhysics Letters 36, 129-134 (1996).

  18. A.-L. Barabási
    Roughening of growing surfaces: Kinetic models and continuum theories
    Computational Materials Science 6, 127-134 (1996).

  19. S. V. Buldyrev, L. A. N. Amaral, A.-L. Barabási, S. T. Harrington, S. Havlin, R. Sadr, H. E. Stanley
    Avalanches and the Directed Percolation Depinning Model
    [Proc. International Conf. on "Future of Fractals"] Fractals 4, 307-319 (1996).

  20. R. Albert, A.-L. Barabási, N. Carle, A. Dougherty
    Driven interfaces in disordered media: determination of universality classes from experimental data
    Physical Review Letters 81, 2926-2929 (1998)


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Materials Science

  1. A.-L. Barabási
    Surfactant-mediated growth of nonequilibrium interfaces
    Physical Review Letters 70, 4102-4105 (1993).

  2. A.-L. Barabási
    Surfactant-mediated surface growth: Nonequilibrium theory, Fractals 1, 846-859 (1993).

  3. P. Jensen, A.-L. Barabási, H. Larralde, S. Havlin, H.E. Stanley
    Controlling nanostructures
    Nature 368, 22 (1994).

  4. P. Jensen, A.-L. Barabási, H. Larralde, S. Havlin, H.E. Stanley
    Model incorporating deposition, diffusion, and aggregation in submonolayer nanostructures
    Physical Review E 50, 618-621 (1994).

  5. R. Cuerno, A.-L. Barabási
    Dynamic scaling of ion-sputtered surfaces
    Physical Review Letters 74, 4746-4749 (1995).

  6. P. Jensen, A.-L. Barabási, H. Larralde, S. Havlin, H. E. Stanley
    Growth and percolation of thin films: A model incorporating deposition, diffusion, and aggregation, Chaos, Solutions, and Fractals 6, 227-232 (1995).

  7. A.-L. Barabási, E. Kaxiras
    Dynamic scaling in conserved systems with coupled fields: Application to surfactant-mediated growth
    Europhysics Letters 36, 129-134 (1996).

  8. A.-L. Barabási
    Roughening of growing surfaces: Kinetic models and continuum theories
    Computational Materials Science 6, 127-134 (1996).

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  9. A.-L. Barabási
    Self-organized superlattice formation in II-VI and III-V semiconductors
    Applied Physics Letters 70, 764-767 (1996).

  10. P. Jensen, A.-L. Barabási, H. Larralde, S. Havlin, H. E. Stanley
    Fractal models for thin film growth
    in [Proc. International Conference on the Future of Fractals, Aichi, Japan, 25-27 July, 1995] Fractals 4, 321-329 (1996).

  11. I. Daruka, A.-L. Barabási
    Island formation and critical thickness in heteroepitaxy
    Physical Review Letters 78, 3027 (1997).

  12. A.-L. Barabási
    Self-assembled island formation in heteroepitaxial growth
    Applied Physics Letters 70, 2565-2567 (1997).

  13. I. Daruka, A.-L. Barabási
    Dislocation free island formation in heteroepitaxial growth: a study at equilibrium
    Physical Review Letters 79, 3708-3711 (1997).

  14. M. A. Makeev, A.-L. Barabási
    Ion-induced effective surface diffusion in ion sputtering
    Applied Physics Letters 71, 2800-2802 (1997).

  15. J. K. Furdyna, S. Lee, I. Daruka, C.S. Kim, A.-L. Barabási, M. Dobrowolska, J.L. Merz
    Self-assembled growth of II-VI quantum dots
    Nonlinear Optics 18, 85-92 (1997).

  16. M. A. Makeev, A.-L. Barabási
    Secondary ion changes on rippled interfaces
    Applied Physics Letters 72, 906-908 (1998).

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  17. I. Daruka, A.-L. Barabási
    Equilibrium phase diagrams for dislocation free self-assembled quantum dots
    Applied Physics Letters 72, 2102-2104 (1998).

  18. M. A. Makeev, A.-L. Barabási
    Effect of the surface roughness on the secondary ion yield in ion sputtering
    Applied Physics Letters 73, 1445-1447 (1998).

  19. S. Lee, I. Daruka, C. S. Kim, A.-L. Barabási, J. L. Merz, J. K. Furdyna
    Dynamics of ripening of self-assembled II-VI semiconductor quantum dots
    Physical Review Letters 81, 3479-3482 (1998).

  20. C. Lee, A.-L. Barabási
    Spatial ordering of self-organized islands grown on patterned surfaces
    Applied Physics Letters 73, 2651-2653 (1998).

  21. I. Daruka, J. Tersoff, A.-L. Barabási
    Shape transition in growth of strained islands
    Physical Review Letters 82, 2753-2756 (1999).

  22. S. Lee, I. Daruka, C. S. Kim, A.-L. Barabási, J. K. Furdyna, J. L. Merz
    Comment on, Dynamics of ripening of self-assembled II-VI semiconductor quantum dots, Lee et al. reply
    Physical Review Letters 83 240 (1999).

  23. Daruka, A.-L. Barabási, S.J. Zhou, T.C. Germann, P.S. Lomdahl, A.R. Bishop
    Molecular dynamics investigation of the surface stress distribution in a Si/Ge quantum dot superlattice
    Physical Review B 60, R2150-R2153 (1999).

  24. S. Park, B. Kahng, H. Jeong, A.-L. Barabási
    Dynamics of ripple formation in sputter erosion: nonlinear phenomena
    Physical Review Letters 83, 3486-3489 (1999).

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  25. A.-L. Barabási
    Thermodynami and kinetic mechanisms in self-assembled quantum dot formation
    Materials Science and Engineering B 67, 23-30 (1999).

  26. B. Kahng, H. Jeong, A.-L. Barabási
    Quantum dot and hole formation in sputter erosion
    Applied Physics Letters 78, 805-807 (2001).

  27. B. Kahng, H. Jeong, A.-L. Barabási
    Nanoscale structure formation on sputter eroded surface
    Journal of the Korean Physical Society 39, 421-424 (2001).

  28. C.S. Lee, B. Kahng, A.-L. Barabási
    Spatial ordering of stacked quantum dots
    Applied Physics Letters 78, 984-986 (2001).

  29. M. Makeev, R. Cuerno, A.-L. Barabási
    Morphology of ion-sputtered surfaces
    Nuclear Instruments and Methods B 197, 185-227 (2002).

  30. H. Jeong, B. Kahng, S. Lee, C. Y. Kwak, A.-L. Barabási, J. K. Furdyna
    Monte Carlo simulation of sinusoidally modulated superlattice growth
    Physical Review E 65, 031602 (2002).

  31. J. Kim, B. Kahng, A.-L. Barabási
    Nanoscale wire formation on sputter-eroded surfaces
    Applied Physics Letters 81, 3654-3656 (2002).

  32. M.A. Makeev, A.-L. Barabási
    Effect of surface morphology on the sputtering yields: I. Ion sputtering from self-affine surfaces
    Nuclear Instruments & Methods in Physics Research Section B-Beam Interactions with Materials and Atoms 222, 316-334 (2004).

  33. M.A. Makeev, A.-L. Barabási
    Effect of surface morphology on the sputtering yields: II. Ion sputtering from rippled surfaces
    Nuclear Instruments & Methods In Physics Research Section B-Beam Interactions with Materials and Atoms 222, 335-354 (2004).


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Biophysics

  1. B. Suki, A.-L. Barabási, K. Lutchen
    Lung tissue viscoelasticity: A mathematical framework and its molecular basis
    Journal Applied Physiology 76, 2749-2759 (1994).

  2. B. Suki, A.-L. Barabási, Z. Hantos, F. Petak, H. E. Stanley
    Avalanches and power law behavior in lung inflation
    Nature 368, 615-618 (1994).

  3. P. Jensen, A.-L. Barabási, H. Larralde, S. Havlin, H. E. Stanley
    Deposition, diffusion and aggregation of atoms on surfaces: A model for nanostructure growth
    Physical Review B 50, 15316-15329 (1994).

  4. P. Jensen, A.-L. Barabási, H. Larralde, S. Havlin, H.E. Stanley
    Connectivity of diffusing particles continually deposited on a surface: Relation to LECBD experiments
    [ Proc. of ETOPIM-3, Mexico, 1993] Physica A 207, 219-227 (1994).

  5. A.-L. Barabási, S.V. Buldyrev, H. E. Stanley, B. Suki
    Avalanches in the lung: A statistical mechanical approach
    Physical Review Letters 76, 2192-2195 (1996).

  6. U. Frey, M. Silverman, A.-L. Barabási, B. Suki
    Irregularities and power law distributions in the breathing pattern in preterm and term infants
    Journal of Applied Physiology 85, 789-797 (1998).

  7. H. Jeong, B. Tombor, R. Albert, Z. Oltvai, A.-L. Barabási
    The large-scale organization of metabolic networks
    Nature 407, 651-655 (2000).

  8. H. Jeong, S.P. Mason, A.-L. Barabási, Z.N. Oltvai
    Lethality and centrality in protein networks
    Nature 411, 41-42 (2001).

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  9. J. Podani, Z. N. Oltvai, H. Jeong, B. Tombor, A.-L. Barabási, E. Szathmary
    Comparable system-level organization of Archea and Eucaryotes
    Nature Genetics 29, 54-56 (2001).

  10. R.J. Williams, N.D. Martinez, E.L. Berlow, J.A. Dunne, A.-L. Barabási
    Two degrees of separation in complex food webs
    Proceedings of the National Academy of Sciences 99, 12913-12916 (2002).

  11. E. Ravasz, A. L. Somera, D. A. Mongru, Z. N. Oltvai, A.-L. Barabási
    Hierarchical organization of modularity in metabolic networks
    Science 297, 1551-1555 (2002).

  12. Z. N. Oltvai, A.-L. Barabási
    Life's complexity pyramid
    Science 298, 763-764 (2002).

  13. 101. H. Jeong, Z.N. Oltvai, A.-L. Barabási
    Prediction of protein essentiality based on genomic data
    ComPlexUs 1, 19-28 (2003).

  14. I. Farkas, H. Jeong, T. Vicsek, A.-L. Barabási, Z. N. Oltvai
    The topology of the transcription regulatory network in the yeast S. cerevisiae
    Physica A 318, 601-612 (2003).

  15. Z. Dezso, Z.N. Oltvai, A.-L. Barabási
    Bioinformatics analysis of experimentally determined protein complexes in the yeast Saccharomyces cerevisiae
    Genome Research 13, 2450-2454 (2003).

  16. G. Balazsi, K. A. Kay, A.-L. Barabási, Z. Oltvai
    Spurious spatial periodicity of co-expression in microarray data due to printing design
    Nucleic Acids Research 31, 4425-4433 (2003).

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  17. S. Y. Gerdes, M. D. Scholle, J. W. Campbell, G. Balazsi, E. Ravasz, M. D. Daugherty, A. L. Somera, N. C. Kyrpides, I. Anderson, M. S. Gelfand, A. Bhattacharya, V. Kapatral, M. D'Souza, M. V. Baev, Y. Grechkin, F. Mseeh, M. Y. Fonstein, R. Overbeek, A.-L. Barabási, Z. N. Oltvai, A. L. Osterman
    Experimental determination and system level analysis of essential genes in Escherichia coli MG1655
    Journal of Bacteriology 185, 5673-5684 (2003).

  18. S. Wuchty, Z. N. Oltvai, A.-L. Barabási
    Evolutionary conservation of motif constituents in the yeast protein interaction network
    Nature Genetics 35, 176-179 (2003).

  19. R. Dobrin, Q.K. Beg, A.-L. Barabási
    Aggregation of topological motifs in the Escherichia coli transcriptional regulatory networks
    BMC Bioinformatics 5, 10 (2004).

  20. E. Almaas, B. Kovacs, T. Vicsek, Z. N. Oltvai, A.-L. Barabási
    Global organization of metabolic fluxes in the bacterium Escherichia coli
    Nature 427, 839-843 (2004).

  21. S. Y. Yook, Z. N. Oltvai, A.-L. Barabási
    Functional and topological characterization of protein interaction networks
    Proteomics 4, 928-942 (2004).

  22. A.-L. Barabási, Z. N. Oltvai
    Network Biology: Understanding the Cell's Functional Organization
    Nature Reviews Genetics 5, 101-113 (2004).

  23. G. Balazsi, A.-L. Barabási, Z. N. Oltvai
    Topological units of environmental signal processing in the transcriptional regulatory network of Escherichia coli
    Proceedings of the National Academy of Sciences 102: 7841-7846 (2005).


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Statistical Mechanics

  1. A.-L. Barabási
    Invasion percolation and global optimization
    Physical Review Letters 76, 3750-3753 (1996).

  2. P. Molinas-Mata, M.A. Munoz, D.O. Martinez, A.-L. Barabási
    The ballistic random walker
    Physical Review E 54, 968-971 (1996).

  3. I. Derenyi, C.-S. Lee, A.-L. Barabási
    Ratchet effect in surface electromigration: smoothing surfaces by an AC field
    Physical Review Letters 80, 1473-1476 (1998).

  4. A. Czirok, A.-L. Barabási, T. Vicsek
    Collective motion of self-propelled particles: Kinetic phase transition in one dimension
    Physical Review Letters 82, 209-212 (1999).

  5. C.-S. Lee, B. Janko, I. Derenyi, A.-L. Barabási
    Reducing vortex density in superconductors using the ratchet effect
    Nature 400, 337-340 (1999).

  6. Z. Neda, E. Ravasz, Y. Brechet, T. Vicsek, A.-L. Barabási
    Self-organizing processes: The sound of many hands clapping
    Nature 403, 849-850 (2000).

  7. A.-L. Barabási, V.W. Freeh, H. Jeong, J. Brockman
    Parasitic computing
    Nature 412, 894-897 (2001).

  8. I. Yang, H. Jeong, B. Kahng, A.-L. Barabási
    Emerging behavior in electronic bidding
    Physical Review E 68, 016102 (2003).


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Granular Media

  1. D. J. Hornbaker, R. Albert, I. Albert, A.-L. Barabási, P. Schiffer
    Why sand castles stand: an experimental study of wet granular media
    Nature 387, 765 (1997).

  2. R. Albert, I. Albert, D. Hornbaker, P. Schiffer, A.-L. Barabási
    Maximum angle of stability in wet and dry spherical granular media
    Physical Review E 56, R6271-R6274 (1997).

  3. R. Albert, M.A. Pfeifer, P. Schiffer, A.-L. Barabási
    Slow drag in granular medium
    Physical Review Letters 82 205-208 (1999).

  4. A.-L. Barabási, R. Albert, P. Schiffer
    The physics of sandcastles: Maximum angle of stability in wet and dry granular media
    Physica A 266, 366-371 (1999).

  5. P. Tegzes, R. Albert, M. Paskvan, A.-L. Barabasi, T. Vicsek, P. Schiffer
    Liquid-induced transitions in granular media
    Physical Review E 60, 5823-5826 (1999).

  6. I. Albert, P. Tegzes, B. Kahng, R. Albert, J.G. Sample, M. Pfeifer, A.-L. Barabási, T. Vicsek, P. Schiffer
    Jamming and fluctuations in granular drag
    Physical Review Letters 84, 5122-5125 (2000).

  7. I. Albert, P. Tegzes, R. Albert, J.G. Sample, A-L. Barabási, T. Vicsek, B. Kahng, P. Schiffer
    Stick-slip fluctuations in granular drag
    Physical Review E, 031307 (2001).

  8. B. Kahng, I. Albert, P. Schiffer, A.-L. Barabási
    Modeling relaxation and jamming in granular media
    Physical Review E 64, 051303 (2001).

  9. I. Albert, J. G. Sample, A. J. Morss, S. Rajagopalan, A.-L. Barabási, P. Schiffer
    Granular drag on a discrete object: Shape effects on jamming
    Physical Review E 64, 061303 (2001).


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Complex Networks

  1. R. Albert, H. Jeong, A.-L. Barabási
    Diameter of the world wide web
    Nature 401, 130-131 (1999).

  2. A.-L. Barabási, R. Albert
    Emergence of scaling in random networks
    Science 286, 509-512 (1999).

  3. A.-L. Barabási, R. Albert, H. Jeong
    Mean-field theory for scale-free random networks
    Physica A 272, 173-187 (1999).

  4. R. Albert, A.-L. Barabási
    Dynamics of complex systems: Scaling laws for the period of boolean networks
    Physical Review Letters 84, 5660-5663(2000).

  5. A.-L. Barabási, R. Albert, H. Jeong
    Scale-free characteristics of random networks: The topology of the world wide web
    Physica A 281, 69-77 (2000).

  6. A.-L. Barabási, R. Albert, H. Jeong, G. Bianconi
    Power-law distribution of the World Wide Web
    Science 287, 2115 (2000).

  7. R. Albert, H. Jeong, A.-L. Barabási
    Error and attack tolerance of complex networks
    Nature 406, 378-482 (2000).

  8. H. Jeong, B. Tombor, R. Albert, Z. Oltvai, A.-L. Barabási
    The large-scale organization of metabolic networks
    Nature 407, 651-655 (2000).

  9. R. Albert, A.-L. Barabási
    Topology of complex networks: Local events and universality
    Physical Review Letters 85, 5234-5237 (2000).

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  10. H. Jeong, S.P. Mason, A.-L. Barabási, Z.N. Oltvai
    Lethality and centrality in protein networks
    Nature 411, 41-42 (2001).

  11. G. Bianconi, A.-L. Barabási
    Bose-Einstein condensation in complex networks
    Physical Review Letters 86, 5632-5635 (2001).

  12. J. Podani, Z. N. Oltvai, H. Jeong, B. Tombor, A.-L. Barabási, E. Szathmary
    Comparable system-level organization of Archea and Eucaryotes
    Nature Genetics 29, 54-56 (2001).

  13. A.-L. Barabási, E. Ravasz, T. Vicsek
    Deterministic scale-free networks
    Physica A 299, 559-564 (2001).

  14. I. Farkas, I. Derenyi, A-L. Barabási, T. Vicsek
    Spectra of "real-world" graphs: Beyond the semi-circle law
    Physical Review E 64 , 026704 (2001).

  15. S. H. Yook, H. Jeong, A.-L. Barabási, Y. Tu
    Weighted evolving networks
    Physical Review Letters 86, 5835-5838 (2001).

  16. G. Bianconi, A.-L. Barabási
    Competition and multiscaling in evolving networks
    Europhysics Letters 54, 436-442 (2001).

  17. R.J. Williams, N.D. Martinez, E.L. Berlow, J.A. Dunne, A.-L. Barabási
    Two degrees of separation in complex food webs
    Proceedings of the National Academy of Sciences 99, 12913-12916 (2002).

    18. Go Top

  18. A.L. Barabási, H. Jeong, Z. Neda, E. Ravasz, A. Schubert, T. Vicsek
    Evolution of the social network of scientific collaborations
    Physica A 311, 590-614 (2002).

  19. R. Albert, A.-L. Barabási
    Statistical mechanics of complex networks
    Reviews of Modern Physics 74, 47-97 (2002).

  20. Z. Dezso, A.-L. Barabási
    Halting viruses in scale-free networks
    Physical Review E 65, 055103(R) (2002).

  21. S. H. Yook, H. Jeong, A.-L. Barabási
    Modeling the internet's large-scale topology
    Proceedings of the National Academy of Sciences 99, 13382-13386 (2002).

  22. E. Ravasz, A. L. Somera, D. A. Mongru, Z. N. Oltvai, A.-L. Barabási
    Hierarchical organization of modularity in metabolic networks
    Science 297, 1551-1555 (2002).

  23. N. Schwartz, R. Cohen, D. ben-Avraham, A.-L. Barabási, S. Havlin
    Percolation in directed scale-free networks
    Physical Review E 66, 015104(R) (2002).

  24. Z. N. Oltvai, A.-L. Barabási
    Life's complexity pyramid
    Science 298, 763-764 (2002).

  25. I. Farkas, I. Derenyi, H. Jeong, Z. Neda, Z.N. Oltvai, E. Ravasz, A. Schubert, A.-L. Barabási, T. Vicsek
    Networks in life: scaling properties and eigenvalue spectra
    Physica A 314, 25-34 (2002).

  26. H. Jeong, Z.N. Oltvai, A.-L. Barabási
    Prediction of protein essentiality based on genomic data
    ComPlexUs 1, 19-28 (2003).

    27. Go Top

  27. I. Farkas, H. Jeong, T. Vicsek, A.-L. Barabási, Z. N. Oltvai
    The topology of the transcription regulatory network in the yeast S. cerevisiae
    Physica A 318, 601-612 (2003).

  28. E. Ravasz, A.-L. Barabási
    Hierarchical organization in complex networks
    Physical Review E 67, 026112 (2003).

  29. Z. Dezso, Z.N. Oltvai, A.-L. Barabási
    Bioinformatics analysis of experimentally determined protein complexes in the yeast Saccharomyces cerevisiae
    Genome Research 13, 2450-2454 (2003).

  30. H. Jeong, Z. Neda, A.-L. Barabási
    Measuring preferential attachment for evolving networks
    Europhysics Letters 61, 567-572 (2003).

  31. G. Balazsi, K. A. Kay, A.-L. Barabási, Z. Oltvai
    Spurious spatial periodicity of co-expression in microarray data due to printing design
    Nucleic Acids Research 31, 4425-4433 (2003).

  32. S. Y. Gerdes, M. D. Scholle, J. W. Campbell, G. Balazsi, E. Ravasz, M. D. Daugherty, A. L. Somera, N. C. Kyrpides, I. Anderson, M. S. Gelfand, A. Bhattacharya, V. Kapatral, M. D'Souza, M. V. Baev, Y. Grechkin, F. Mseeh, M. Y. Fonstein, R. Overbeek, A.-L. Barabási, Z. N. Oltvai, A. L. Osterman
    Experimental determination and system level analysis of essential genes in Escherichia coli MG1655
    Journal of Bacteriology 185, 5673-5684 (2003).

  33. S. Wuchty, Z. N. Oltvai, A.-L. Barabási
    Evolutionary conservation of motif constituents in the yeast protein interaction network
    Nature Genetics 35, 176-179 (2003).

  34. R. Dobrin, Q.K. Beg, A.-L. Barabási
    Aggregation of topological motifs in the Escherichia coli transcriptional regulatory networks
    BMC Bioinformatics 5, 10 (2004).

  35. E. Almaas, B. Kovacs, T. Vicsek, Z. N. Oltvai, A.-L. Barabási
    Global organization of metabolic fluxes in the bacterium Escherichia coli
    Nature 427, 839-843 (2004).

    36. Go Top

  36. S. Y. Yook, Z. N. Oltvai, A.-L. Barabási
    Functional and topological characterization of protein interaction networks
    Proteomics 4, 928-942 (2004).

  37. M. Argollo de Menezes andA.-L. Barabási
    Fluctuations in network dynamics
    Physical Review Letters 92, 028701 (2004).

  38. A.-L. Barabási, Z. N. Oltvai
    Network Biology: Understanding the Cell's Functional Organization
    Nature Reviews Genetics 5, 101-113 (2004).

  39. A.-L. Barabási, M. Argollo de Menezes, S. Balensiefer, J. Brockman
    Hot spots and universality in network dynamics
    Europhysics Journal B 38, 169-175 (2004).

  40. M. Argollo de Menezes, A.-L. Barabási
    Separating the internal and external dynamics of complex systems
    Physical Review Letters 93, 068701 (2004).

  41. L.A.N. Amaral, A. Barrat, A.-L. Barabási, G. Caldarelli, P. De los Rios, A. Erzan, B. Kahng, R. Mantegna, J.F.F. Mendes, R. Pastor-Satorras, A. Vespignani
    Virtual Round Table on ten leading questions for network research
    European Physics Journal B 38, 143-145 (2004).

  42. A. Vazquez, R. Dobrin, D. Sergi, J.-P. Eckmann, Z.N. Oltvai, A.-L. Barabási
    The topological relationship between the large-scale attributes and local interactions patterns of complex networks
    Proceedings of the National Academy of Sciences 101, 17940-17945 (2004).

  43. Z. Eisler, J. Kertesz, S.-H. Yook, A.-L. Barabási
    Multiscalling and non-universality in fluctuations of driven complex systems
    Europhysics Letters 69, pp. 664-670 (2005).

    44. Go Top

  44. P. J. Macdonald, E. Almaas, A.-L. Barabási
    Minimum spanning trees of weighted scale-free networks
    Europhysics Letters 72 (2): 308-314 (2005).

  45. A. Vazquez, J. G. Oliveira, A.-L. Barabási
    Inhomogeneous evolution of subgraphs and cycles in complex networks
    Physical Review E 71, 025103(Rd) (2005).

  46. M.A. Makeev, I. Derenyi I, A.-L. Barabási
    Emergence of large-scale vorticity during diffusion in a random potential under an alternating bias
    Physical Review E 71 (2), 026112 (2005).

  47. A.-L. Barabási
    Network Theory - The emergence of creative enterprise
    Science 308, 639 (2005).

  48. A.-L. Barabási
    The origin of bursts and heavy tails in humans dynamics
    Nature 207, 435 (2005).

  49. G. Balazsi, A.-L. Barabási, Z. N. Oltvai
    Topological units of environmental signal processing in the transcriptional regulatory network of Escherichia coli
    Proceedings of the National Academy of Sciences 102: 7841-7846 (2005).

  50. J.G. Oliveira, A.-L. Barabási
    Darwin and Einstein correspondence patterns
    Nature 437, 1251 (2005).

  51. A.-L. Barabási
    Taming complexity
    Nature Physics 1, 68-70 (2005).

  52. Marta C. González and Albert-László Barabási
    From data to models
    Nature Physics, VOL 3, (April 2007).

  53. Gergely Palla, Albert-László Barabási & Tamás Vicsek
    Quantifying social group evolution
    Nature 446 (7136), 664-667 (4/5/2007).
    [Supplementary Material]

  54. Denis Dupuy*, Nicolas Bertin*, César A. Hidalgo R.*, Kavitha Venkatesan, Domena Tu, David Lee, Jennifer Rosenberg, Nenad Svrzikapa, Aurélie Blanc, Alain Carnec, Anne-Ruxandra Carvunis, Rock Pulak, Jane Shingles, John Reece-Hoyes, Rebecca Newbury, Ryan Viveiros, William A. Mohler, Christian Le Peuch, Ian A. Hope, Robert Johnsen
    Genome-scale analysis of in vivo spatiotemporal promoter activity in C. elegans
    Nature Biotechnology 25 (6), 663-668 (6/6/2007).

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Biological Networks

  1. H. Jeong, B. Tombor, R. Albert, Z. Oltvai, A.-L. Barabási
    The large-scale organization of metabolic networks
    Nature 407, 651-655 (2000).

  2. H. Jeong, S.P. Mason, A.-L. Barabási, Z.N. Oltvai
    Lethality and centrality in protein networks
    Nature 411, 41-42 (2001).

  3. J. Podani, Z. N. Oltvai, H. Jeong, B. Tombor, A.-L. Barabási, E. Szathmary
    Comparable system-level organization of Archea and Eucaryotes
    Nature Genetics 29, 54-56 (2001).

  4. R.J. Williams, N.D. Martinez, E.L. Berlow, J.A. Dunne, A.-L. Barabási
    Two degrees of separation in complex food webs
    Proceedings of the National Academy of Sciences 99, 12913-12916 (2002).

  5. E. Ravasz, A. L. Somera, D. A. Mongru, Z. N. Oltvai, A.-L. Barabási
    Hierarchical organization of modularity in metabolic networks
    Science 297, 1551-1555 (2002).

  6. Z. N. Oltvai, A.-L. Barabási
    Life's complexity pyramid
    Science 298, 763-764 (2002).

  7. H. Jeong, Z.N. Oltvai, and A.-L. Barabási
    Prediction of protein essentiality based on genomic data
    ComPlexUs 1, 19-28 (2003).

  8. I. Farkas, H. Jeong, T. Vicsek, A.-L. Barabási, Z. N. Oltvai
    The topology of the transcription regulatory network in the yeast S. cerevisiae
    Physica A 318, 601-612 (2003).

  9. Z. Dezso, Z.N. Oltvai, A.-L. Barabási
    Bioinformatics analysis of experimentally determined protein complexes in the yeast Saccharomyces cerevisiae
    Genome Research 13, 2450-2454 (2003).

  10. G. Balazsi, K. A. Kay, A.-L. Barabási, Z. Oltvai
    Spurious spatial periodicity of co-expression in microarray data due to printing design
    Nucleic Acids Research 31, 4425-4433 (2003).

    11. Go Top

  11. S. Y. Gerdes, M. D. Scholle, J. W. Campbell, G. Balazsi, E. Ravasz, M. D. Daugherty, A. L. Somera, N. C. Kyrpides, I. Anderson, M. S. Gelfand, A. Bhattacharya, V. Kapatral, M. D'Souza, M. V. Baev, Y. Grechkin, F. Mseeh, M. Y. Fonstein, R. Overbeek, A.-L. Barabási, Z. N. Oltvai, A. L. Osterman
    Experimental determination and system level analysis of essential genes in Escherichia coli MG1655
    Journal of Bacteriology 185, 5673-5684 (2003).

  12. S. Wuchty, Z. N. Oltvai, A.-L. Barabási
    Evolutionary conservation of motif constituents in the yeast protein interaction network
    Nature Genetics 35, 176-179 (2003).

  13. R. Dobrin, Q.K. Beg, A.-L. Barabási
    Aggregation of topological motifs in the Escherichia coli transcriptional regulatory networks
    BMC Bioinformatics 5, 10 (2004).

  14. E. Almaas, B. Kovacs, T. Vicsek, Z. N. Oltvai, A.-L. Barabási
    Global organization of metabolic fluxes in the bacterium Escherichia coli
    Nature 427, 839-843 (2004).

  15. S. Y. Yook, Z. N. Oltvai, A.-L. Barabási
    Functional and topological characterization of protein interaction networks
    Proteomics 4, 928-942 (2004).

  16. A.-L. Barabási, Z. N. Oltvai
    Network Biology: Understanding the Cell's Functional Organization
    Nature Reviews Genetics 5, 101-113 (2004).

  17. A. Vazquez, R. Dobrin, D. Sergi, J.-P. Eckmann, Z.N. Oltvai, A.-L. Barabási
    The topological relationship between the large-scale attributes and local interactions patterns of complex networks
    Proceedings of the Nat'l Academy of Sciences 101, 17940-17945 (2004). [Supplementary Material S1, S2, S3, S4, S5, S6, S7, S8]

  18. G. Balazsi, A.-L. Barabási, Z. N. Oltvai
    Topological units of environmental signal processing in the transcriptional regulatory network of Escherichia coli
    Proceedings of the National Academy of Sciences 102: 7841-7846 (2005).

  19. Eivind Almaas, Z. N. Oltvai, A.-L. Barabási
    The Activity Reaction Core and Plasticity of Metabolic Networks
    PLOS Computational Biology (2005)

  20. Alexei Vazquez, Balázs Rácz, András Lukács, Albert-László Barabási
    Impact of non-Poissonian activity patterns on spreading processes
    Physical Review Letters 98 (15), No. 158702 (4/10/2007).

  21. Jukka-Pekka Onnela, Jari Saramäki, Jörkki Hyvönen, Gábor Szabó, M Argollo de Menezes, Kimmo Kaski, Albert-László Barabási and János Kertész
    Analysis of a large-scale weighted network of one-to-one human communication
    New Journal of Physics 9, 1-27 (6/28/2007).

  22. Vanessa Vermeirssen, M. Inmaculada Barrasa, César Hidalgo, Jenny Aurielle B. Babon, eynaldo Sequerra, Lynn Doucette-Stamm, Albert-László Barabási, Albertha J.M. Walhout
    Transcription factor modularity in a Gene-Centered C. elegans Protein-DNA interaction network
    Genome Research 17, 061-1071 (7/7/2007).
    [Supplementary Material]


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Papers in Proceedings

  1. S. Havlin, A.-L. Barabási, S.V. Buldyrev, C.K. Peng, M. Schwartz, H.E. Stanley, T. Vicsek
    Anomalous interface roughening: Experiment and models, in Growth Patterns in Physical Sciences and Biology (E. Louis, L. Sander and P. Meakin, eds.)
    [PROC. 1991 NATO ADVANCED RESEARCH WORKSHOP, Granada, Spain, October 1991] (Plenum, NY, 1993), pp. 85–98.

  2. A.-L. Barabási, S.V. Buldyrev, S. Havlin, G. Huber, H.E. Stanley, T. Vicsek
    Imbibition in porous media: Experiment and theory in Surface disordering: Growth, roughening and phase transitions (R. Jullien, J. Kert´esz, P.Meakin, and D.E. Wolf, eds.)
    [PROC. OF THE LES HOUCHES WORKSHOP, 1992] (Nova Science, New York 1992).

  3. R. Cuerno, A.-L. Barabási
    Roughening by ion bombardment: A stochastic continuum equation
    [PROC. MATERIALS RESEARCH SOCIETY Fall Meeting, 299-304, Boston 1994] (Materials Research Society, Pittsburgh, 1994).

  4. A.-L. Barabási, R. Cuerno
    Fractal and non-fractal surfaces in ion sputtering
    [Disordered Materials and Interfaces, PRO. MATERIALS RESEARCH SOCIETY Fall Meeting, Vol. 407, Pg. 259, Boston 1995] (Materials Research Society, Pittsburgh, 1995).

  5. P. Jensen, L. Bardotti, A.-L. Barabási, H. Larralde, S. Havlin, H.E. Stanley
    Why are computer simulations of growth useful? in Disordered Materials and Interfaces
    [PROC. SYMPOSIUM OF MATERIALS RESEARCH SOCIETY, 1995], edited by H. Z. Cummins, D. J. Durian, D. L. Johnson, and H. E. Stanley (Materials Research Society, Pittsburgh, 1996), pp. 391–398.

    6. Go Top

  6. A.-L. Barabási, M.A. Makeev, C.S. Lee, R. Cuerno
    Roughening of ion-eroded surfaces, in Dynamics of Fluctuating Interfaces and Related Phenomena
    [The 4th CTP Workshop on Statistical Physics, Seoul, Korea, January 27-31, 1997], edited by D. Kim, H. Park, and B. Kahng (World Scientific, Singapore, 1997), pg. 131–150.

  7. J.L. Merz, A.-L. Barabási, R.S. Williams, J.K. Furdyna
    Nanostructure self assembly as an emerging technology, in Future trends in microelectronics: Off the beaten path”, edited by S. Luryi, J. Xu, and A. Zaslavsky (Wiley, 1999).

  8. C.-S. Lee, I. Der´enyi, A.-L. Barabási
    Smoothing surfaces by an ac field: an application of the ratchet effect, in Epitaxial growth
    [PROC. SYMPOSIUM OF MATERIALS RESEARCH SOCIETY, SAN FRANCISCO, 1999] edited by A.L. Barabasi, F.Liu, and T. Pearsall (Materials Research Society, Pittsburgh, 1999).

  9. A.-L. Barabási, B. Kahng, H. Jeong, S. Park
    Nonlinear ripple formation in sputter erosion
    [PROC. SYMPOSIUM OF MATERIALS RESEARCH SOCIETY, Boston, 1999] edited by E. Chason, B. Cooper, and B. Harper (Materials Research Society, Pittsburgh, 2000).

  10. I. Albert, P. Tegzes, R. Albert, J. Sample, A.-L. Barabási, T, Vicsek, B. Kahng, P. Schiffer
    An experimental study of the fluctuations in granular drag
    [PROC. SYMPOSIUM OF MATERIALS RESEARCH SOCIETY, San Francisco, Spring 2000] (Materials Research Society, Pittsburgh, 2000).

    11. Go Top

  11. A.-L. Barabási, Z. Dezs¨o, E. Ravasz, S.-H. Yook, Z. Oltvai
    Scale-Free and hierarchical structures in complex networks
    [SEVENTH GRANADA LECTURES, Spain (2002) Modeling of Complex Systems (AIP, Melville New York, 2003).

  12. A.-L. Barabási, E. Ravasz, Z. Oltvai
    Hierarchical organization of modularity in complex networks
    [PROC. OF THE XVIII SITGES CONFERENCE ON STATISTICAL MECHANICS, Sitges, Barcelona, Spain, June 2002], Eds. R. Pastor-Satorras, J. M. Rubi, and A. Diaz-Guilera (Springer, Berlin, 2003).

  13. A.-L. Barabási, M. A. de Menezes
    Hot spots and universality in network dynamics
    [PROC. OF THE CONFERENCE ON GROWING NETWORKS AND GRAPHS IN STATISTICAL PHYSICS: FINANCE, BIOLOGY AND SOCIAL SYSTEMS, Rome 2003], Europhysics Journal B (in press, 2003).

  14. A. Vazquez, R. Dobrin, D. Sergi, J.-P. Eckmann, Z.N. Oltvai, A.-L. Barabási
    The topological relationship between the large-scale attributes and local interactions patterns of complex networks
    Proceedings of the Nat'l Academy of Sciences 101, 17940-17945 (2004).
    [Supplementary Material S1, S2, S3, S4, S5, S6, S7, S8]

  15. J.-P. Onnela, J. Saramäki, J. Hyvönen, G. Szabó, D. Lazer, K. Kaski, J. Kertész, and A.-L. Barabási
    Structure and tie strengths in mobile communication networks
    Proceedings of the Nat'l Academy of Sciences 104, 7332–7336 (2007).
    [Supplementary Material]

  16. J.-P.Onnela, J. Saramaki, J. Hyvonen, G. Szabo, D. Lazer, K. Kaski,
    J. Kertesz, A.-L. Barabasi
    Structure and tie strengths in mobile communication networks
    Proceedings of the National Academy of Sciences 104 (18), 7332-7336 (5/1/2007).
    [Supplementary Material]

  17. K.-I. Goh, M. E. Cusick, D. Valle, B. Childs, M. Vidal, A.-L. Barabasi
    The human disease network
    Proceedings of the National Academy of Sciences 104 (21), 8685 (5/22/2007).


Book and Journal Reviews

  1. A.-L. Barabási
    Across the boundaries: Review of Interfaces and Free Boundaries
    Nature 407, 297 (2000).

  2. A.-L. Barabási
    Review of Evolution of Networks: From Biological Nets to the Internet and WWW
    Physics Today (in press, 2004).


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Talks (.ppt)

  1. Albert-László Barabási
    The architecture of complexity, ASIST Annual Conference
    2006 Austin, TX [PPT]

  2. Albert-László Barabási, Zoltán N. Oltvai, H. Jeong, R. Albert, E. Ravasz,
    G. Bianconi, E. Almaas
    The Architecture of Complexity: From the topology of the WWW to cell's genetic network
    2005 Norway [PPT]

  3. Albert-László Barabási
    The Architecture of Complexity: From the WWW to network biology
    2004 Princeton [PPT]

  4. Albert-László Barabási, Zoltán N. Oltvai, H. Jeong, R. Albert, E. Ravasz,
    G. Bianconi, E. Almaas
    The Architecture of Complexity: From the topology of the WWW to cell's genetic network
    2004 India [PPT]

  5. Albert-László Barabási
    Linked: Networks from Biology to the World Wide Web
    [ Audio-English ] [ Audio-Hungarian ]


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Department of Physics | University of Notre Dame