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Low-dimensional Coulombic systems

2018

  1. M. Antlanger, G. Kahl, M. Mazars, L. Šamaj, and E. Trizac.
    The asymmetric Wigner bilayer.
    Journal of Chemical Physics 149 (2018) 244904.
    arXiv:1808.07345 [cond-mat.soft]

  2. I. Palaia, M. Trulsson, E. Trizac, and L. Šamaj.
    A correlation-hole approach to the electric double layer with counter-ions only.
    Molecular Physics 116 (2018) 3134-3146.
    arXiv:1803.00359 [cond-mat.soft]

  3. L. Šamaj.
    Logarithmic finite-size correction in non-neutral two-component plasma on sphere.
    Journal of Statistical Physics 173 (2018) 42-53.
    arXiv:1807.03963 [cond-mat.stat-mech]

  4. L. Šamaj, M. Trulsson and E. Trizac.
    Strong-coupling theory of counterions between symmetrically charged walls: from crystal to fluid phases.
    Soft Matter 14 (2018) 4040.
    arXiv:1804.08459 [cond-mat.soft]

  5. M. Trulsson, E. Trizac and L. Šamaj.
    Planar screening by charge polydisperse counterions.
    Journal of Physics: Condensed Matter 30 (2018) 035001.
    arXiv:1801.01686 [cond-mat.stat-mech]

2017

  1. L. Šamaj.
    Finite-size effects in non-neutral two-dimensional Coulomb fluids.
    Journal of Statistical Physics 168 (2017) 434-446.
    arXiv:1702.06778 [cond-mat.stat-mech]

  2. I. Travěnec and L. Šamaj.
    Tricriticality for dimeric Coulomb molecular crystals in ground state.
    Journal of Physics A 50 (2017) 485001.
    arXiv:1706.04799 [cond-mat.stat-mech]

  3. M. Trulsson, L. Šamaj and E. Trizac.
    Quasi-universality in mixed counterions systems.
    Europhysics Letters 118 (2017) 16001.
    arXiv:1612.04212 [cond-mat.stat-mech]

2016

  1. M. Antlanger, G. Kahl, M. Mazars, L. Šamaj, and E. Trizac.
    Rich polymorphic behavior of Wigner bilayers.
    Physical Review Letters 117 (2016) 118002.
    arXiv:1607.06614 [cond-mat.soft]

  2. L. Šamaj.
    Amplitude function of asymptotic correlations along charged wall in Coulomb fluids.
    Journal of Statistical Physics 164 (2016) 304-320.
    arXiv:1603.01057 [cond-mat.stat-mech]

  3. L. Šamaj, A. P. dos Santos, Y. Levin, and E. Trizac.
    Mean-field beyond mean-field: the single particle view for moderately to strongly coupled charged fluids.
    Soft Matter 12 (2016) 8768-8773.
    arXiv:1609.06541 [cond-mat.soft]

  4. L. Šamaj and E. Trizac.
    Poisson-Boltzmann thermodynamics of counter-ions confined by curved hard walls.
    Physical Review E 93 (2016) 012601.
    arXiv:1511.01271 [cond-mat.soft]

  5. I. Travěnec and L. Šamaj.
    Separation of Wigner structures for two-dimensional equimolar binary mixtures of Coulomb particles.
    Physical Review B 93 (2016) 104110.
    arXiv:1602.02947 [cond-mat.other]

  6. M. Trulsson, L. Šamaj and E. Trizac.
    Quasi-universality in mixed counterions systems.
    arXiv:1612.04212 [cond-mat.stat-mech]

2015

  1. I. Travěnec and L. Šamaj.
    Phase diagram and critical properties of Yukawa bilayers.
    Physical Review E 92 (2015) 022306.
    arXiv:1504.03501 [cond-mat.soft]

  2. L. Šamaj and E. Trizac.
    Effective charge of cylindrical and spherical colloids immersed in an electrolyte: the quasi-planar limit.
    Journal of Physics A 48 (2015) 265003.
    arXiv:1505.07965 [cond-mat.soft]

  3. L. Šamaj.
    Counter-ions near a charged wall: Exact results for disc and planar geometries.
    Journal of Statistical Physics 161 (2015) 227-249.
    arXiv:1511.00882 [cond-mat.stat-mech]

2014

  1. M. Antlanger, M. Mazars, L. Šamaj, G. Kahl, and E. Trizac.
    Taking one charge off a two-dimensional Wigner crystal.
    Molecular Physics 112 (2014) 1336-1349.
    arXiv:1401.8167 [cond-mat.soft]

  2. L. Šamaj and E. Trizac.
    The Wigner strong-coupling approach.
    In: Electrostatics of Soft and Disordered Matter, ed. by D. Dean, J. Dobnikar, A. Naji, and R. Podgornik (Pan Stanford Publishing, Singapore, 2014) 93-105.
    arXiv:1210.4032 [cond-mat.soft]

  3. L. Šamaj and E. Trizac.
    Counter-ions between or at asymmetrically charged walls: 2D free-fermion point.
    Journal of Statistical Physics 156 (2014) 932-947.
    arXiv:1406.6621 [cond-mat.stat-mech]

2013

  1. L. Šamaj.
    Thermodynamics of two-component log-gases with alternating charges.
    Journal of Statistical Physics 152 (2013) 599-618.
    arXiv:1303.4236 [cond-mat.stat-mech]

  2. L. Šamaj.
    Counter-ions at single charged wall: Sum rules.
    European Physical Journal E 36 (2013) 100 (1-8).
    arXiv:1304.4125 [cond-mat.soft]

  3. L. Šamaj and Z. Bajnok.
    Introduction to the Statistical Physics of Integrable Many-body Systems.
    Cambridge University Press, Cambridge, UK (2013).

  4. E. Trizac and L. Šamaj.
    Like-charge colloidal attraction: a simple argument.
    In: Proceedings of the International School on Physics "Enrico Fermi", Course 184: Physics of Complex Colloids, ed. by C. Bechinger, F. Sciortino, and P. Ziherl (IOS Press, Amsterdam-Oxford-Tokyo-Washington DC, 2013) 61-74.
    arXiv:1210.5843 [cond-mat.soft]

2012

  1. L. Šamaj.
    Long-range correlations of the surface charge density between electrical media with flat and spherical interfaces.
    Contributions to Plasma Physics 52 (2012) 89-94.
    arXiv:1204.3446 [cond-mat.stat-mech]

  2. L. Šamaj and E. Trizac.
    Strong-coupling theory for a polarizable planar colloid.
    Contributions to Plasma Physics 52 (2012) 53-57.
    arXiv:1111.5435 [cond-mat.soft]

  3. L. Šamaj and E. Trizac.
    Strong-coupling electrostatics for two dissimilar charged walls.
    Physica B: Condensed Matter 407 (2012) 1953-1957.

  4. L. Šamaj and E. Trizac.
    Ground state of classical bilayer Wigner crystals.
    Europhysics Letters 98 (2012) 36004.
    arXiv:1205.2460 [cond-mat.str-el]

  5. L. Šamaj and E. Trizac.
    Critical phenomena and phase sequence in a classical bilayer Wigner crystal at zero temperature.
    Physical Review B 85 (2012) 205131.
    arXiv:1207.3920 [cond-mat.str-el]

  6. L. Šamaj and E. Trizac.
    Ground-state structure of a bilayer Wigner crystal with repulsive dielectric images.
    Europhysics Letters 100 (2012) 56005.
    arXiv:1301.6627 [cond-mat.stat-mech]

2011

  1. Z. Bajnok and L. Šamaj.
    Introduction to integrable many-body systems III.
    Acta Physica Slovaca 61 (2011) 129-271.

  2. L. Šamaj and E. Trizac.
    Counterions at highly charged interfaces: From one plate to like-charge attraction.
    Physical Review Letters 106 (2011) 078301.
    arXiv:1009.4640 [cond-mat.stat-mech]

  3. L. Šamaj and E. Trizac.
    Counter-ions at charged walls: Two dimensional systems.
    European Physical Journal E 34 (2011) 20.
    arXiv:1012.4983 [cond-mat.soft]

  4. L. Šamaj and E. Trizac.
    Wigner-crystal formulation of strong-coupling theory for counterions near planar charged interfaces.
    Physical Review E 84 (2011) 041401.
    arXiv:1112.3763 [cond-mat.stat-mech]

2010

  1. L. Šamaj and B. Jancovici.
    Charge and current sum rules in quantum media coupled to radiation II.
    Journal of Statistical Physics 139 (2010) 432-453.
    arXiv:0911.3493 [cond-mat.stat-mech]

  2. L. Šamaj.
    Introduction to integrable many-body systems II.
    Acta Physica Slovaca 60 (2010) 155-257.

2009

  1. B. Jancovici and L. Šamaj.
    Equilibrium long-ranged charge correlations at the surface of a conductor coupled to the electromagnetic radiation II.
    Physical Review E 79 (2009) 021111.
    arXiv:0811.0295 [cond-mat.stat-mech]

  2. B. Jancovici and L. Šamaj.
    Equilibrium long-ranged charge correlations at the interface between media coupled to the electromagnetic radiation.
    Physical Review E 80 (2009) 031139.
    arXiv:0905.3334 [cond-mat.stat-mech]

  3. L. Šamaj.
    Charge and current sum rules in quantum media coupled to radiation.
    Journal of Statistical Physics 137 (2009) 1-17.
    arXiv:0906.5536 [cond-mat.stat-mech]

  4. L. Šamaj and B. Jancovici.
    Fluctuations of the electromagnetic field at the interface between media.
    In: 17th Conference of Slovak Physicists, Proceedings, M. Reiffers, ed. (SFS, Bratislava, 2009) 1-6.
    arXiv:0912.3124 [cond-mat.stat-mech]

2008

  1. B. Jancovici and L. Šamaj.
    Guest charge and potential fluctuations in two-dimensional classical Coulomb systems.
    Journal of Statistical Physics 131 (2008) 613-629.
    arXiv:0711.2243 [cond-mat.stat-mech]

  2. L. Šamaj and B. Jancovici.
    Equilibrium long-ranged charge correlations at the surface of a conductor coupled to the electromagnetic radiation.
    Physical Review E 78 (2008) 051119.
    arXiv:0807.4667 [cond-mat.stat-mech]

  3. L. Šamaj.
    Introduction to integrable many-body systems I.
    Acta Physica Slovaca 58 (2008) 811-946.

2007

  1. L. Šamaj.
    A generalization of the Stillinger-Lovett sum rules for the two-dimensional jellium.
    Journal of Statistical Physics 128 (2007) 1415-1428.
    arXiv:0705.1416 [cond-mat.stat-mech]

  2. L. Šamaj.
    A trickiness of the high-temperature limit for number density correlation functions in classical Coulomb fluids.
    Journal of Statistical Physics 128 (2007) 569-586.
    arXiv:0705.1406 [cond-mat.stat-mech]

  3. B. Jancovici and L. Šamaj.
    Correlations and sum rules in a half-space for a quantum two-dimensional one-component plasma.
    Journal of Statistical Mechanics (2007) P05009.
    arXiv:0704.2316 [cond-mat.stat-mech]

  4. L. Šamaj and B. Jancovici.
    Wigner-Kirkwood expansion for semi-infinite quantum fluids.
    Journal of Statistical Mechanics (2007) P02002.
    cond-mat/0701773

2006

  1. L. Šamaj.
    Renormalization of a hard-core guest charge immersed in a two-dimensional electrolyte.
    Journal of Statistical Physics 124 (2006) 1179-1206.
    cond-mat/0601692

2005

  1. L. Šamaj and Z. Bajnok.
    Exactly solvable model of the two-dimensional electrical double layer.
    Physical Review E 72 (2005) 061503.
    cond-mat/0508410

  2. B. Jancovici and L. Šamaj.
    Casimir force between two ideal-conductor walls revisited.
    Europhysics Letters 72 (2005) 35-41.
    cond-mat/0506363

  3. L. Šamaj.
    Anomalous effects of "guest" charges immersed in electrolyte: Exact 2D results.
    Journal of Statistical Physics 120 (2005) 125-146.
    cond-mat/0503201

  4. L. Šamaj.
    Saturation of electrostatic potential: Exactly solvable 2D Coulomb models.
    Journal of Statistical Physics 119 (2005) 459-478.
    cond-mat/0501442

  5. B. Jancovici and L. Šamaj.
    "Screening" of universal van der Waals-Casimir terms by Coulomb gases in a fully-finite two-dimensional geometry.
    Journal of Statistical Mechanics: Theory and Experiment (2005) P05004.
    cond-mat/0501042

2004

  1. B. Jancovici and L. Šamaj.
    Screening of classical Casimir forces by electrolytes in semi-infinite geometries.
    Journal of Statistical Mechanics: Theory and Experiment (2004) P08006.
    cond-mat/0407392

  2. L. Šamaj, J. Wagner, and P. Kalinay.
    Translational symmetry breaking in the one-component plasma on the cylinder.
    Journal of Statistical Physics 117 (2004) 159-178.
    cond-mat/0407346

  3. L. Šamaj.
    Is the two-dimensional one-component plasma exactly solvable?
    Journal of Statistical Physics 117 (2004) 131-158.
    cond-mat/0402027

  4. B. Jancovici and L. Šamaj.
    Microscopic calculation of the dielectric susceptibility tensor for Coulomb fluids II.
    Journal of Statistical Physics 114 (2004) 1211-1234.
    cond-mat/0308304

2003

  1. L. Šamaj.
    Exact solution of a charge-asymmetric two-dimensional Coulomb gas.
    Journal of Statistical Physics 111 (2003) 261-290.
    cond-mat/0210018

  2. L. Šamaj.
    The statistical mechanics of the classical two-dimensional Coulomb gas is exactly solved.
    Journal of Physics A: Mathematical and General 36 (2003) 5913-5920.
    cond-mat/0212365

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