Publications

1994 1995 1996 1997 1998
1999 2000 2001 2002 2003
2004 2005 2006 2007 2008

Theses

Journal publications

    1994

  1. Inverse roughening transition in the staggered body-centered solid-on-solid model
    Erik Luijten, Henk van Beijeren and Henk W.J. Blöte
    Phys. Rev. Lett. 73, 456–459 (1994).
    [PDF Reprint] [DjVu Reprint] (Please see the top of this page for more information on DjVu files.)

    2. 1995

  2. Monte Carlo method for spin models with long-range interactions
    Erik Luijten and Henk W.J. Blöte
    Int. J. Mod. Phys. C 6, 359–370 (1995).
    [PDF Reprint] [DjVu Reprint] (Please see the top of this page for more information on DjVu files.)
  3. Ising universality in three dimensions: a Monte Carlo study
    Henk W.J. Blöte, Erik Luijten and Jouke R. Heringa
    J. Phys. A 28, 6289–6313 (1995).
    [PDF Reprint] [DjVu Reprint] (Please see the top of this page for more information on DjVu files.)

    4. 1996

  4. Finite-size scaling and universality above the upper critical dimensionality
    Erik Luijten and Henk W.J. Blöte
    Phys. Rev. Lett. 76, 1557–1561 (1996); 76, 3662(E) (1996).
    [Reprint] [Erratum]
  5. Medium-range interactions and crossover to classical critical behavior
    Erik Luijten, Henk W.J. Blöte and Kurt Binder
    Phys. Rev. E 54, 4626–4636 (1996).
    [Reprint]

    6. 1997

  6. Comment on "Finite-size scaling of the 5D Ising model"
    Erik Luijten
    Europhys. Lett. 37, 489–491 (1997).
    [Reprint]
  7. Classical critical behavior of spin models with long-range interactions
    Erik Luijten and Henk W.J. Blöte
    Phys. Rev. B 56, 8945–8958 (1997).
    [Reprint]
  8. Universality and the five-dimensional Ising model
    Henk W.J. Blöte and Erik Luijten
    Europhys. Lett. 38, 565–570 (1997).
    [Reprint]
  9. Nonmonotonic crossover of the effective susceptibility exponent
    Erik Luijten, Henk W.J. Blöte and Kurt Binder
    Phys. Rev. Lett. 79, 561–564 (1997).
    [Reprint]
  10. Crossover scaling in two dimensions
    Erik Luijten, Henk W.J. Blöte and Kurt Binder
    Phys. Rev. E 56, 6540–6556 (1997).
    [Reprint]

    11. 1998

  11. Nature of crossover from classical to Ising-like critical behavior
    Erik Luijten and Kurt Binder
    Phys. Rev. E 58, R4060–R4063 (1998); 59, 7254(E) (1999).
    [Reprint] [Erratum]

    12. 1999

  12. Test of renormalization predictions for universal finite-size scaling functions
    Erik Luijten
    Phys. Rev. E 60, 7558–7561 (1999).
    [Reprint]
  13. Finite-size scaling above the upper critical dimension revisited:
    The case of the five-dimensional Ising model
    Erik Luijten, Kurt Binder and Henk W.J. Blöte
    Eur. Phys. J. B 9, 289–297 (1999).
    [Reprint]
  14. Shape of crossover between mean-field and asymptotic critical behavior in a three-dimensional Ising lattice
    M.A. Anisimov, E. Luijten, V.A. Agayan, J.V. Sengers and K. Binder
    Phys. Lett. A 264, 63–67 (1999).
    [Reprint]
  15. Critical properties of the three-dimensional equivalent-neighbor model and crossover scaling in finite systems
    Erik Luijten
    Phys. Rev. E 59, 4997–5008 (1999).
    [Reprint]
  16. Do crossover functions depend on the shape of the interaction profile?
    Erik Luijten and Kurt Binder
    Europhys. Lett. 47, 311–317 (1999).
    [Reprint]

    17. 2000

  17. Optimized energy calculation in lattice systems with long-range interactions
    Michael Krech and Erik Luijten
    Phys. Rev. E 61, 2058–2064 (2000).
    [Reprint]
  18. High-dimensional lattice gases
    J.R. Heringa, H.W.J. Blöte and E. Luijten
    J. Phys. A 33, 2929–2941 (2000).
    [Reprint]
  19. Monte Carlo tests of theoretical predictions for critical phenomena: still a problem?
    K. Binder and E. Luijten
    Comp. Phys. Comm. 127, 126–130 (2000).
    [Reprint]
  20. Monte Carlo investigations of phase transitions: status and perspectives
    Kurt Binder, Erik Luijten, Marcus Müller, Nigel B. Wilding and Henk W.J. Blöte
    Physica A 281, 112–128 (2000).
    [Reprint]
  21. Comment on ``Scaling laws for a system with long-range interactions within Tsallis statistics''
    Benjamin P. Vollmayr-Lee and Erik Luijten
    Phys. Rev. Lett. 85, 470 (2000).
    [Reprint]
  22. Crossover behavior in 3He and Xe near their liquid-vapor critical point
    Erik Luijten and Horst Meyer
    Phys. Rev. E 62, 3257–3261 (2000).
    [Reprint]

    23. 2001

  23. A Kac-potential treatment of nonintegrable interactions
    Benjamin P. Vollmayr-Lee and Erik Luijten
    Phys. Rev. E 63, 031108 (2001).
    [Reprint]
  24. Monte Carlo tests of renormalization-group predictions for critical phenomena in Ising models (invited review)
    Kurt Binder and Erik Luijten
    Physics Reports 344, 179–253 (2001). ("Renormalization group theory in the new millennium")
    [Reprint]
  25. Criticality in one dimension with inverse square-law potentials
    Erik Luijten and Holger Meßingfeld
    Phys. Rev. Lett. 86, 5305–5308 (2001).
    [Reprint]
  26. The heat capacity of the restricted primitive model electrolyte
    Erik Luijten, Michael E. Fisher and Athanassios Z. Panagiotopoulos
    J. Chem. Phys. 114, 5468–5471 (2001).
    [Reprint]

    27. 2002

  27. Cluster Monte Carlo: Extending the range
    H.W.J. Blöte, J.R. Heringa and E. Luijten
    Comp. Phys. Comm. 147, 58–63 (2002).
    [Reprint]
  28. On quantum effects near the liquid-vapor transition in helium
    Martin H. Müser and Erik Luijten
    J. Chem. Phys. 116, 1621–1628 (2002).
    [Reprint]
  29. Universality class of criticality in the restricted primitive model electrolyte
    Erik Luijten, Michael E. Fisher and Athanassios Z. Panagiotopoulos
    Phys. Rev. Lett. 88, 185701 (2002).
    [Reprint]
  30. Boundary between long-range and short-range critical behavior in systems with algebraic interactions
    Erik Luijten and Henk W.J. Blöte
    Phys. Rev. Lett. 89, 025703 (2002).
    [Reprint]

    31. 2003

  31. Crossover critical behavior in the three-dimensional Ising model
    Young C. Kim, Mikhail A. Anisimov, Jan V. Sengers and Erik Luijten
    J. Stat. Phys. 110, 591–609 (2003).
    [Reprint]
  32. Dynamical properties of the slithering snake algorithm: A numerical test of the activated-reptation hypothesis
    L. Mattioni, J. P. Wittmer, J. Baschnagel, J.-L. Barrat and E. Luijten
    Eur. Phys. J. E 10, 369–385 (2003). DOI
    [Reprint]
  33. Precise simulation of near-critical fluid coexistence
    Young C. Kim, Michael E. Fisher and Erik Luijten
    Phys. Rev. Lett. 91, 065701 (2003).
    [Reprint]
  34. Shape variation of linear polymers upon phase separation in a ternary solution
    Lei Guo and Erik Luijten
    Macromolecules 36, 8201–8204 (2003). DOI
    [Reprint]

    35. 2004

  35. Rejection-free geometric cluster algorithm for complex fluids
    Jiwen Liu and Erik Luijten
    Phys. Rev. Lett. 92, 035504 (2004).
    [Reprint]
  36. Stabilization of colloidal suspensions by means of highly charged nanoparticles
    Jiwen Liu and Erik Luijten
    Phys. Rev. Lett. 93, 247802 (2004).
    [Reprint]
    Selected for Virtual Journal of Nanoscale Science & Technology 10, issue 25 (2004).

    37. 2005

  37. Reversible gel formation of triblock copolymers studied by molecular dynamics simulation
    Lei Guo and Erik Luijten
    J. Polym. Sci. Part B: Polym. Phys. 43, 959–969 (2005). DOI
    [Reprint]
  38. Generalized geometric cluster algorithm for fluid simulation
    Jiwen Liu and Erik Luijten
    Phys. Rev. E 71, 066701 (2005).
    [Reprint]
  39. Interparticle interactions and direct imaging of colloidal phases assembled from microsphere–nanoparticle mixtures (invited)
    Carlos J. Martinez, Jiwen Liu, Summer K. Rhodes, Erik Luijten, Eric R. Weeks and Jennifer A. Lewis
    Langmuir 21, 9978–9989 (2005)
    [Reprint]
  40. Structure and stability of self-assembled actin–lysozyme complexes in salty water
    Lori K. Sanders, Camilo Guáqueta, Thomas E. Angelini, Jae-Wook Lee, Scott C. Slimmer, Erik Luijten and Gerard C. L. Wong
    Phys. Rev. Lett. 95, 108302 (2005).
    [Reprint]
    Selected for Virtual Journal of Nanoscale Science & Technology 12, issue 11 (2005).
    Selected for Virtual Journal of Biological Physics Research 10, issue 6 (2005).
  41. Critical polymer–polymer phase separation in ternary solutions
    Lei Guo and Erik Luijten
    J. Chem. Phys. 123, 074907 (2005).
    [Reprint]
  42. Screening in ionic systems: Simulations for the Lebowitz length
    Young C. Kim, Erik Luijten and Michael E. Fisher
    Phys. Rev. Lett. 95, 145701 (2005).
    [Reprint]
  43. Colloidal stabilization via nanoparticle halo formation
    Jiwen Liu and Erik Luijten
    Phys. Rev. E 72, 061401 (2005).
    [Reprint]
    Selected for Virtual Journal of Nanoscale Science & Technology 12, issue 25 (2005).

    44. 2006

  44. Fluid Simulation with the Geometric Cluster Algorithm (invited article for special issue on Monte Carlo methods)
    Erik Luijten
    Computing in Science and Engineering 8(2), 20–29 (2006).
     [Reprint]
  45. The effect of salt on self-assembled actin–lysozyme complexes
    Camilo Guáqueta, Lori K. Sanders, Gerard C. L. Wong and Erik Luijten
    Biophys. J. 90, 4630–4638 (2006). DOI
    [Reprint]
  46. Self-avoiding flexible polymers under spherical confinement
    Angelo Cacciuto and Erik Luijten
    Nano Lett. 6, 901–905 (2006).
    [Reprint]
  47. Confinement-driven translocation of a flexible polymer
    Angelo Cacciuto and Erik Luijten
    Phys. Rev. Lett. 96, 238104 (2006).
    [Reprint]
    Selected for Virtual Journal of Biological Physics Research 11, issue 12 (2006).
  48. Simulation of phase transitions in highly asymmetric fluid mixtures
    Jiwen Liu, Nigel B. Wilding and Erik Luijten
    Phys. Rev. Lett. 97, 115705 (2006).
    [Reprint]
  49. Effective interactions in mixtures of silica microspheres and polystyrene nanoparticles
    Stephen A. Barr and Erik Luijten
    Langmuir 22, 7152–7155 (2006).
    [Reprint]
  50. Salt-induced collapse and reexpansion of highly charged flexible polyelectrolytes
    Pai-Yi Hsiao and Erik Luijten
    Phys. Rev. Lett. 97, 148301 (2006).
    [Reprint]
    Selected for Virtual Journal of Biological Physics Research 12, issue 8 (2006).
  51. Clusters of charged Janus spheres
    Liang Hong, Angelo Cacciuto, Erik Luijten and Steve Granick
    Nano Lett. 6, 2510–2514 (2006).
    [Reprint]

    52. 2007

  52. Translocation of polymers out of confined geometries
    Erik Luijten and Angelo Cacciuto
    Comp. Phys. Comm. 177, 150–153 (2007).
    [Reprint]
  53. Polyelectrolyte condensation induced by linear cations
    Camilo Guáqueta and Erik Luijten
    Phys. Rev. Lett. 99, 138302 (2007).
    [Reprint]
    Selected for Virtual Journal of Biological Physics Research 14, issue 7 (2007).
  54. Control of electrostatic interactions between F-actin and genetically modified lysozyme in aqueous media
    Lori K. Sanders, Wujing Xian, Camilo Guáqueta, Michael J. Strohman, Chuck R. Vrasich, Erik Luijten, and Gerard C. L. Wong
    Proc. Natl. Acad. Sci. USA 104, 15994–15999 (2007).
    [Reprint]
  55. Quantum criticality, lines of fixed points, and phase separation in doped two-dimensional quantum dimer models
    Stefanos Papanikolaou, Erik Luijten and Eduardo Fradkin
    Phys. Rev. B 76, 134514 (2007).
    [Reprint]

    56. 2008

  56. Clusters of amphiphilic colloidal spheres
    Liang Hong, Angelo Cacciuto, Erik Luijten and Steve Granick
    Langmuir 24, 621–625 (2008).
    [Reprint]

Invited conference proceedings and lecture notes

  1. Monte Carlo simulation of spin models with long-range interactions
    Erik Luijten
    Computer Simulation Studies in Condensed-Matter Physics XII.
    Springer Proceedings in Physics Vol. 85, edited by D.P. Landau, S.P. Lewis and H.-B. Schüttler, p. 86–99.
    Springer, Heidelberg, 2000.
    [Preprint] (identical to published version)
  2. Cluster algorithms: Beyond suppression of critical slowing down
    Erik Luijten and Jiwen Liu
    The Monte Carlo Method in the Physical Sciences: Celebrating the 50th Anniversary of the Metropolis Algorithm.
    (Los Alamos National Laboratory, June 9-11, 2003).
    AIP Conference Proceedings Vol. 690, edited by J.E. Gubernatis, p. 225–231.
    American Institute of Physics, Melville, 2003.
    [Reprint]
  3. Geometric Cluster Algorithm for Interacting Fluids
    Erik Luijten and Jiwen Liu
    Computer Simulation Studies in Condensed-Matter Physics XVII.
    Springer Proceedings in Physics Vol. 103, edited by D.P. Landau, S.P. Lewis and H.-B. Schüttler, p. 109–121.
    Springer, Heidelberg, 2006.
  4. Introduction to Cluster Monte Carlo Algorithms
    Erik Luijten
    Computer Simulations in Condensed Matter: from Materials to Chemical Biology.
    (International School of Solid State Physics - 34th course, Erice, Italy, July 20–August 1, 2005)
    Lecture Notes in Physics Vol. 703, edited by M. Ferrario, K. Binder and G. Ciccotti, p. 13–38.
    Springer, Berlin, 2006.
    [Reprint]

Contributed conference proceedings

  1. Critical Phenomena and "Crossover Scaling" in Model Systems for Soft Condensed Matter
    Kurt Binder, Jérôme Houdayer, Erik Luijten and Marcus Müller
    Proceedings of the NIC Symposium 2001.
    NIC Series Vol. 9, edited by H. Rollnik and D. Wolf, p. 373–383.
    John von Neumann Institute for Computing, Jülich, 2002.
    [Reprint]
  2. Langevin Dynamics Study of Polymer Translocation through a Nanopore
    Lei Guo and Erik Luijten
    Computer Simulation Studies in Condensed-Matter Physics XVIII.
    Edited by D.P. Landau, S.P. Lewis and H.-B. Schüttler. Springer, Heidelberg, 2006.

Main page

This page was last updated on March 2, 2008.