Research outputs: Dr. Bartlomiej Waclaw

  1. Bacterial growth: a statistical physicist's guide DOI
    Rosalind Allen and Bartlomiej Waclaw, Reports on Progress in Physics, 82, 1 (2018)
  2. Reduced adhesion between cells and substrate confers selective advantage in bacterial colonies DOI
    Craig Watson, Paul Hush, Joshua Williams, Angela Dawson, Nikola Ojkic, Simon Titmuss and Bartlomiej Waclaw, Europhysics Letters (2018)
  3. Phenotypic Switching Can Speed up Microbial Evolution DOI
    Andrew C. Tadrowski, Martin R. Evans and Bartlomiej Waclaw, Scientific Reports (2018)
  4. Mechanical interactions in bacterial colonies and the surfing probability of beneficial mutations DOI
    Matti Gralka, Oskar Hallatschek and Bartlomiej Waclaw, Journal of the Royal Society Interface, 14, 131 (2017)
  5. CANCER Genes, environment, and "bad luck" DOI
    Martin A. Nowak and Bartlomiej Waclaw, Science, 355, 6331 , p. 1266-1267 (2017)
  6. An exactly solvable, spatial model of mutation accumulation in cancer DOI
    Chay Paterson, Martin A. Nowak and Bartlomiej Waclaw, Scientific Reports, 6 (2016)
  7. Beyond the Hypercube DOI
    Marcin Zagorski, Zdzislaw Burda and Bartlomiej Waclaw, PLoS Computational Biology, 12, 12 (2016)
  8. Antibiotic resistance: a physicist’s view DOI
    Rosalind Allen and Bartlomiej Waclaw, Physical Biology, 13, 4 , p. 045001 (2016)
  9. Allele Surfing Promotes Microbial Adaptation from Standing Variation DOI
    Matti Gralka, Fabian Stiewe, Fred Farrell, Wolfram Moebius, Bartlomiej Waclaw and Oskar Hallatschek, Ecology Letters, 19, 8 , p. 889-898 (2016)
  10. Evolution of Drug Resistance in Bacteria DOI
    Bartlomiej Waclaw, : Advances in Experimental Medicine and Biology, 915, p. 49-67 (2016)
  11. Lower glycolysis carries a higher flux than any biochemically possible alternative DOI
    Steven J. Court, Bartlomiej Waclaw and Rosalind J. Allen, Nature Communications, 6 (2015)
  12. A simple non-equilibrium, statistical-physics toy model of thin-film growth DOI
    Jeremi K Ochab, Wolfhard Janke, Hannes Nagel and Bartlomiej Waclaw, Journal of Statistical Mechanics: Theory and Experiment, 2015, 9 (2015)
  13. A spatial model predicts that dispersal and cell turnover limit intratumour heterogeneity DOI
    Bartlomiej Waclaw, Nature, 525, 7568 , p. 261-264 (2015)
  14. Condensation in models with factorized and pair-factorized stationary states DOI
    M R Evans and B Waclaw, Journal of Statistical Mechanics: Theory and Experiment, 2015, 9 (2015)
  15. The role of mechanical forces in the planar-to-bulk transition in growing Escherichia coli microcolonies DOI
    Matthew A. A. Grant, Bartlomiej Waclaw, Rosalind J. Allen and Pietro Cicuta, Journal of the Royal Society Interface, 11, 97 (2014)
  16. Condensation in stochastic mass transport models: beyond the zero-range process DOI
    M. R. Evans and B. Waclaw, Journal of Physics A: Mathematical and Theoretical, 47, 9 (2014)
  17. An exclusion process on a tree with constant aggregate hopping rate DOI
    Peter Mottishaw, Bartlomiej Waclaw and Martin R. Evans, Journal of Physics A: Mathematical and Theoretical, 46, 40 (2013)
  18. Mechanically driven growth of quasi-two dimensional microbial colonies DOI
    F. D. C. Farrell, O. Hallatschek, D. Marenduzzo and B. Waclaw, Physical Review Letters, 111 (2013)
  19. Quantum widening of a causal dynamical triangulations universe DOI
    L. Bogacz, Z. Burda and B. Waclaw, Physical Review D, Particles and fields, 86, 10 (2012)
  20. Mutational Pathway Determines Whether Drug Gradients Accelerate Evolution of Drug-Resistant Cells DOI
    Philip Greulich, Bartlomiej Waclaw and Rosalind J. Allen, Physical Review Letters, 109, 8 (2012)
  21. Explosive Condensation in a Mass Transport Model DOI
    Bartlomiej Waclaw and Martin R. Evans, Physical Review Letters, 108, 7 (2012)
  22. Stochastic Description of a Bistable Frustrated Unit DOI
    Ashok Garai, Bartlomiej Waclaw, Hannes Nagel and Hildegard Meyer-Ortmanns, Journal of Statistical Mechanics: Theory and Experiment (2012)
  23. RANDOM MATRICES AND LOCALIZATION IN THE QUASISPECIES THEORY DOI
    B. Waclaw, Acta physica polonica b, 42, 5 , p. 1141-1158 (2011)
  24. Dynamical Phase Transition in a Model for Evolution with Migration DOI
    Bartlomiej Waclaw, Rosalind J. Allen and Martin R. Evans, Physical Review Letters, 105, 26 (2010)
  25. THE VARIOUS FACETS OF RANDOM WALK ENTROPY
    Z. Burda, J. Duda, J. M. Luck and B. Waclaw, Acta physica polonica b, 41, 5 , p. 949-987 (2010)
  26. Spectrum of the product of independent random Gaussian matrices DOI
    Z. Burda, R. A. Janik and B. Waclaw, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 81, 4 (2010)
  27. Mass condensation on networks DOI
    B. Waclaw, J. Sopik, W. Janke and H. Meyer-Ortmanns, : Journal of Physics Conference Series (2010)
  28. Mass condensation in one dimension with pair-factorized steady states DOI
    B. Waclaw, J. Sopik, W. Janke and H. Meyer-Ortmanns, Journal of Statistical Mechanics: Theory and Experiment (2009)
  29. Tuning the Shape of the Condensate in Spontaneous Symmetry Breaking DOI
    B. Waclaw, J. Sopik, W. Janke and H. Meyer-Ortmanns, Physical Review Letters, 103, 8 (2009)
  30. Pair-factorized steady states on arbitrary graphs DOI
    B. Waclaw, J. Sopik, W. Janke and H. Meyer-Ortmanns, Journal of Physics A: Mathematical and Theoretical, 42, 31 (2009)
  31. Localization of the Maximal Entropy Random Walk DOI
    Z. Burda, J. Duda, J. M. Luck and B. Waclaw, Physical Review Letters, 102, 16 (2009)
  32. Approaching the thermodynamic limit in equilibrated scale-free networks DOI
    B. Waclaw, L. Bogacz and W. Janke, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 78, 6 (2008)
  33. Power laws in zero-range processes on random networks DOI
    B. Waclaw, Z. Burda and W. Janke, European Physical Journal B, 65, 4 , p. 565-570 (2008)
  34. Counting metastable states of Ising spin glasses on arbitrary graphs DOI
    B. Waclaw and Z. Burda, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 77, 4 (2008)
  35. MONTE CARLO METHODS FOR GENERATION OF RANDOM GRAPHS
    B. Waclaw, L. Bogacz, Z. Burda and W. Janke, p. 342-345 (2008)
  36. Condensation in zero-range processes on inhomogeneous networks DOI
    B. Waclaw, L. Bogacz, Z. Burda and W. Janke, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 76, 4 (2007)
  37. Balls-in-boxes condensation on networks DOI
    L. Bogacz, Z. Burda, W. Janke and B. Waclaw, Chaos, 17, 2 (2007)
  38. Finite-size effects in Barabasi-Albert growing networks DOI
    B. Waclaw and I. M. Sokolov, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 75, 5 (2007)
  39. Free zero-range processes on networks DOI
    L. Bogacz, Z. Burda, W. Janke and B. Waclaw (2007)
  40. Spectral properties of empirical covariance matrices for data with power-law tails DOI
    Zdzislaw Burda, Andrzej T. Gorlich and Bartlomiej Waclaw, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 74, 4 (2006)
  41. Homogeneous complex networks DOI
    L Bogacz, Z Burda and B Waclaw, Physica a-Statistical mechanics and its applications, 366, 1 , p. 587-607 (2006)
  42. Correlated Wishart matrices and critical horizons DOI
    Z Burda, A Gorlich, J Jurkiewicz and B Waclaw, European Physical Journal B, 49, 3 , p. 319-323 (2006)
  43. A program generating homogenous random graphs with given weights DOI
    L Bogacz, Z Burda, W Janke and B Waclaw, Computer Physics Communications, 173, 3 , p. 162-174 (2005)
  44. Eigenvalue density of empirical covariance matrix for correlated samples
    Z Burda, J Jurkiewicz and B Waclaw, Acta physica polonica b, 36, 9 , p. 2641-2652 (2005)
  45. Spectral moments of correlated Wishart matrices DOI
    Z Burda, J Jurkiewicz and B Waclaw, Physical Review E - Statistical, Nonlinear and Soft Matter Physics, 71, 2 (2005)
  46. Causal and homogeneous networks
    P Bialas, Z Burda and B Waclaw, p. 14-28 (2005)