David Landau
Department of Physics and Astronomy
Distinguished Research Professor of Physics
EDUCATION
PhD, Yale University, 1967
AB, Princeton University, 1963
Our group has broad research interests which span a range of problems in condensed matter physics. Much of the work centers on phase transitions and critical phenomena in magnets, alloys (including binary semiconductors), and equilibrium polymer systems. Emphasis is placed on high resolution simulations of static and dynamic properties of both bulk and surface properties using methods such as Monte Carlo, kinetic Monte Carlo, spin dynamics, and molecular dynamics. We also work on developing new methodologies and scalable algorithms for parallel supercomputers. We interact strongly with a number of other research groups in Europe and South America.
2022
“Incommensurate phases in the two-dimensional XY model with Dzyaloshinskii-Moriya interactions”, G. Albuquerque Silva,J. A. Plascak, and D. P. Landau, Phys. Rev. E 106, 044116 (11 pages) (2022).
“Langevin dynamics/Monte Carlo simulations method for calculating nanoscale dielectric functions of materials”, StevenB. Hancock, Neda Alsadat Aghamiri,David P. Landauand Yohannes Abate, Phys. Rev. Materials 6, 076001 (7 pages) (2022).
“A First Look at Structural Properties of Long HP Model Sequences”,Alfred Farris and David P. Landau, J. Phys: Conf. Ser. 2207, 012002 (6 pages) (2022).
“Comparison of Benchmark HP Model Proteins on Face-Centered Cubic and Simple Cubic Lattices using Replica-Exchange Wang-Landau Sampling”,Matthew Scott Wilson and David P. Landau, J. Phys.: Conf. Ser.2207, 012001 (6 pages) (2022).
2021
“Thermodynamics of hydrophobic-polar model proteins on the face-centered cubic Lattices”, Matthew H. Wilson and David P. Landau, Phys. Rev E104,025303 (7 pages) (2021).
“Effects of Lattice Constraints in Coarse-Grained Protein Models”, Alfred C.K. Farris,Daniel T. Seaton,and David P. Landau, J. Chem. Phys. 154, 084903 (14 pages) (2021).
“Replica exchange Wang-Landau sampling of long HP model sequences”, Alfred C.K. Farris and David P. Landau, Physic A 569, 125778 (5 pages) (2021).
“Monte Carlo study of the phase diagram of disordered Fep-Alq=1-p alloys: a site-diluted isotropic Heisenberg model” J. B. Santos-Filho, J. A. Plascak, and D. P. Landau, Phys. Rev. B 103, 024446 (6 pages) (2021)
2020
“A New Universality at a First-Order Phase Transition: The Spin-flop Transition in an Anisotropic Heisenberg Antiferromagnet”, Jiahao Xu, Shan-Ho Tsai, David P. Landau, Kurt Binder, J. Phys.: Conf. Ser. 1483, 0120004 (12 pages) (2020).
“High-resolution Monte Carlo study of the order parameter distribution of the 3D Ising model”, Jiahao Xu, Alan M. Ferrenberg, and David P. Landau, Phys. Rev. E 101, 023315 (2020).
2019
“A First Look at Lattice Effects in Coarse-Grained Protein Models via Wang-Landau Simulations”, A. C.K. Farris, D. T. Seaton, and D. P. Landau, J. Phys.: Conf. Ser. 1290, 012019 (6 pages) (2019).
“Crambin Homologues in the H0P Lattice Model”, Z. Zhang, A. C.K. Farris, G. Shi, T. Wuest, D. P. Landau, J. Phys.: Conf. Ser. 1290, 012018 (6 pages) (2019).
“Carrier localization in perovskite nickelates from oxygen vacancies”, Michele Kotiuga, Zhen Zhang, Jiarui Li, Fanny M. Rodolakis Simoes, Hua Zhou, Ronny Sutarto, Feizhou He, Qi Wang, Yifei Sun, Ying Wang, Neda Alsadat Aghamiri, Steven Bennett Hancock, Leonid Rokhinson, David P. Landau, Yohannes Abate, John W. Freeland, Riccardo Comin, Shriram Ramanathan, Karin M. Rabe, PNAS 116, 21992-21997 (2019) doi.org/10.1073/pnas.1910490116.
“Statistical Physics Meets Biochemistry: Wang-Landau Sampling of the HP Model of Protein Folding”, A. C.K. Farris, T. Wuest, and D. P. Landau, Amer. J. Phys. 87, 310-316 (2019) Editor’s pick
“Probing predictions due to the nonlocal interface Hamiltonian: Monte Carlo simulations of interfacial fluctuations in Ising films”, Lijun Pang, D. P. Landau, and Kurt Binder, Phys. Rev. E 100, 023303 (7 pages) (2019).
“Finite size scaling for a first order transition where a continuous symmetry is broken: The spin-flop transition in the 3D XXZ Heisenberg antiferromagnet”, J. Xu, S.-H. Tsai, D. P. Landau, and K. Binder, Phys. Rev. E 99, 023309 (17 pages) (2019)
“A Study of Magnetic Domains in Thin Films from FM and AFM Interactions”, J. D. Agudelo-Giraldo, E. Restrepo-Parra, and D. P. Landau, Physica A 517, 542-550 (2019).
2018
“Elucidating Thermal Behavior, Native Contacts, and Folding Funnels of Simple Lattice Proteins Using Replica Exchange Wang-Landau Sampling”, Guangjie Shi, Thomas Wuest, and David P. Landau, J. Chem. Phys. 149, 164913 (9 pages) (2018).
“The Role of Chain Stiffness in Lattice Protein Models: A Replica-Exchange Wang-Landau Study”, A. C.K. Farris, G. Shi, T. Wuest, and D. P. Landau, J. Chem. Phys. 149, 125101 https://doi.org/10.1063/1.5045482 (2018)
“Wang-Landau approach to the simulation of water clusters”, Junqi Yin and David P. Landau, Mol. Simulat. DOI: 10.1080/08927022.2018.1506119 (7 pages) (2018).
“Influence of Substrate Pattern on the Adsorption of HP Lattice Proteins”, M. S. Wilson, G. Shi, T. Wüst, Y. W. Li, and D. P. Landau, Molecular Simulation DOI: 10.1080/08927022.2018.1471691 (6 pages) (2018).
“Incommensurability and phase transitions in two-dimensional XY models with Dzyaloshinksii-Moriya interactions,” H. Liu, J. A. Plascak, and D. P. Landau, Phys. Rev. E 97, 052118 (7 pages) (2018).
“Effects of Stiffness on Low Energy States in a Lattice Protein Model for Crambin”, Alfred C.K. Farris, Guangjie Shi, Thomas Wuest, and David P. Landau, J. Phys.: Conf. Ser. 1012, 012008 (7 pages) (2018).
“A practical guide to replica-exchange Wang–Landau simulations”, Thomas Vogel, Ying Wai Li, and David P. Landau, J. Phys.: Conf. Ser. 1012, 012003 (16 pages) (2018).
“92 Years of the Ising Model: A High Resolution Monte Carlo Study”, Jiahao Xu, Alan M. Ferrenberg, David P. Landau, J. Phys.: Conf. Ser. 1012, 012002 (11 pages) (2018).
“Pushing the Limits of Monte Carlo Simulations for the 3d Ising Model”, A. M. Ferrenberg, J. Xu, and D. P. Landau, Phys. Rev. E 97, 043301 (12 pages) (2018).
2017
“Combined molecular and spin dynamics simulation of bcc iron with lattice vacancies”, M. Mudrick, M. Eisenbach, D. Perera, G. M. Stocks, and D. P. Landau, J. Phys.: Conf. Ser. 921, 012007 (5 pages) (2017).
“Replica Exchange Wang-Landau Simulation of Lattice Protein Folding Funnels”, G. Shi, T. Wüst, and D. P. Landau, J. Phys.: Conf. Ser. 905, 120016 (8 pages) (2017).
“Collective dynamics in atomistic models with coupled translational and spin degrees of freedom”, D. Perera, D. M. Nicholson, M. Eisenbach, G. M. Stocks, and D. P. Landau, Phys. Rev. B 95, 014431 (12 pages) (2017).
2016
“Replica Exchange Wang-Landau Simulation of Lattice Protein Folding Funnels”, G. Shi, T. Wüst, and D. P. Landau, Phys. Rev. E 94. 050402(R) (5 pages) (2016).
“Magnetic phase transition in coupled spin-lattice systems: A replica-exchange Wang–Landau study”, D. Perera, T. Vogel, and D. P. Landau, Phys. Rev. E 94, 043308 (5 pages) (2016).
“Folding in a semi-flexible lattice model for Crambin”, Guangjie Shi, Alfred C.K. Farris, Thomas Wüst, and David P. Landau, J. Phys.: Conf. Ser. 686, 012001 (7 pages) (2016)
“Reinventing atomistic magnetic simulations with spin-orbit coupling”, D. Perera, M. Eisenbach, D. M. Nicholson, G. M. Stocks, and D. P. Landau, Phys. Rev. B 93, 060402R (5 pages) (2016).
2015
“Replica-exchange Wang–Landau sampling: Pushing the limits of Monte Carlo simulations in materials sciences,” D. Perera, Y. W. Li, M. Eisenbach, T. Vogel, and D. P. Landau, TMS Annual Meeting Supplemental Proceedings, pp.811–818 (Wiley Online, 2015)
“Exploring Replica-Exchange Wang-Landau sampling in higher-dimensional parameter space,” A. Valentim, J. C. S. Rocha, S.-H. Tsai, Y. W. Li, M. Eisenbach, C. E. Fiore, and D. P. Landau, J. Phys.: Conf. Ser. 640, 012006 (6 pages) (2015).
“Effect of surface attractive strength on structural transitions of a confined HP lattice protein,” B. Pattanasiri, Y. W. Li, T. Wüst, and D. P. Landau, J. Phys: Conf. Ser. 640 , 012015 (6 pages) (2015).
“Protein folding of the H0P model: A parallel Wang-Landau study,” G. Shi, T. Wüst, Y. W. Li, and D. P. Landau, J. Phys: Conf. Ser. 640 , 012017 (7 pages) (2015).
“Magnetic Materials at Finite Temperatures: Thermodynamics and combined spin and molecular dynamics derived from First principles calculations,” M. Eisenbach, D. Perera, D. P. Landau, D. M. Nicholson, J. Yin, G. Brown, J. Phys.: Conf. Ser. 640 , 012019 (13 pages) (2015).
“Spin-wave multiple excitations in nanoscale classical Heisenberg antiferromagnets,” Z. Hou, D. P. Landau, G. M. Stocks, and G. Brown, Phys. Rev. B 91, 064417 (8 pages) (2015).
2014
“Leading Fisher partition function zeros as indicators of structural transitions in macromolecules,” J. C. S. Rocha, S. Schnabel. D. P. Landau, and M. Bachmann, Physics Procedia 57, 94-98 (2014).
“Effects of single-site mutation on hydrophobic-polar lattice proteins,” G. Shi, T. Vogel, T. Wüst, Y. W. Li, and D. P. Landau, Phys. Rev. E 90, 033307 (9 pages) (2014).
“A new paradigm for petascale Monte Carlo simulation: Replica exchange Wang–Landau sampling,” Y. W. Li, T. Vogel, T. Wüst, and D. P. Landau, J. Phys.: Conf. Ser. 510, 012012 (11 pages) (2014).
“Scalable replica-exchange framework for Wang–Landau sampling,” T. Vogel, Y. W. Li, T. Wüst, and D. P. Landau, Phys. Rev. E 90, 023302 (12 pages) (2014).
“Identifying transitions in finite systems by means of partition function zeros and microcanonical inflection-point analysis: A comparison for elastic flexible polymers,” J. C. S. Rocha, S. Schnabel. D. P. Landau, and M. Bachmann, Phys. Rev.E 90, 022601 (10 pages) (2014).
“A high-resolution Monte Carlo study of the multicritical point in the 3D XXZ Heisenberg antiferromagnet,” S. Hu, S.-H. Tsai, and D. P. Landau, Phys. Rev. E 89, 032118 (7 pages) (2014).
“Combined molecular dynamics-spin dynamics simulations of bcc iron,” D. Perera, D. P. Landau, D. M. Nicholson, G. M. Stocks, M. Eisenbach, J. Yin, and G. Brown, J. Phys: Conf. Ser. 487, 012007 (9 pages) (2014).“Bicritical or tetracritical: The 3D anisotropic Heisenberg antiferromagnet,” S.-H. Tsai, S. Hu, and D. P. Landau, J. Phys.: Conf. Ser. 487, 012005 ( 6 pages) (2014).
“Exploring new frontiers in statistical physics with a new, parallel Wang-Landau framework,” T. Vogel, Y. W. Li, T. Wüst, and D. P. Landau, J. Phys.: Conf. Ser. 487, 012001 (10 pages) (2014).
“Wang-Landau sampling of the interplay between surface adsorption and folding of HP lattice proteins,” Y. W. Li, T. Wüst and D. P. Landau, Mol. Simulat. 40, 640-655 (2014).
“Phonon-magnon intractions in body centered cubic iron: A combined molecular dynamics and spin dynamics study,” D. Perera, D. P. Landau, D. M. Nicholson, G. M. Stocks, M. Eisenbach, J. Yin, and G. Brown, J. Appl. Phys. 135, 17D124 (3 pages) (2014).
2013
“Thermodynamics and structural properties of a confined HP protein determined by Wang-Landaus simulation,” B. Pattanasiri, Y. W. Li, D. P. Landau, T. Wüst, and W. Triampo, J. Phys.: Conf. Ser. 454, 012071 (9 pages) (2013).
“Examining the Phase Transition Behavior of Amphiphilic Lipids in Solution Using Statistical Temperature Molecular Dynamics and Replica-Exchange Wang-Landau Methods,” L. Gai, T. Vogel, K. A. Maerzke, C. R. Iacovella, D. P. Landau, P. T. Cummings, and C. McCabe, J. Chem. Phys. 139, 054505 (13 pages) (2013).
“A generic, hierarchical framework for massively parallel Wang-Landau sampling”, T. Vogel, Y. W. Li, T. Wüst, and D. P. Landau, Phys. Rev. Lett. 110, 210603 (5 pages) (2013).
“Generic folding and transition hierarchies for surface adsorption of HP lattice model proteins”, Y. W. Li, T. Wüst, and D. P. Landau, Phys. Rev. E 87, 012706 (11 pages) (2013).
“From flexible to stiff: Systematic analysis of structural phases for semiflexible polymers”, D. T. Seaton, S. Schnabel, D. P. Landau, and M. Bachmann, Phys. Rev. Lett. 110, 028103 (5 pages) (2013).
2012
“Conformational transitions of a confined lattice protein: A Wang-Landau study”, B. Pattanasiri, Y. W. Li, D. P. Landau. T. Wüst and W. Triampo, J. Phys.: Conf. Series 402, 012048 (8 pages) (2012)
“Surface adsorption of lattice HP proteins: Thermodynamics and structural transitions using Wang-Landau sampling”, Y. W. Li, Thomas Wüst and D. P Landau, J. Phys.: Conf. Series 402, 012046 (7 pages) (2012)
“Spin waves in the classical Heisenberg antiferromagnet on the kagome lattice”, S. Schnabel and D. P. Landau, J. Phys.: Conf. Series 402, 012022 (9 pages) (2012).
“Optimized Wang-Landau sampling of lattice polymers: Ground state search and folding thermodynamics of HP model proteins”, T. Wüst and D. P. Landau, J. Chem. Phys. 137, 064903 (13 pages) (2012)
“Effects of stiffness on short, semiflexible homopolymer chains”, D. Seaton, S. Schnabel. M. Bachmann, and D. P. Landau, Int. J. Mod. Phys. C 23, 1240004 (7 pages) (2012).
“Wang-Landau simulations of adsorbed and confined lattice proteins”, B. Pattamasiri, Y. W. Li, D. P. Landau, and T. Wuest, Int. J. Mod. Phys. C 23, 1240008 (10 pages) (2012).
“Fictitious excitations in the classical Heisenberg antiferromagnet on the kagome lattice”, S. Schnabel and D. P. Landau, Phys. Rev. B 86, 014413 (10 pages) (2012).
“Diffusion Monte Carlo for fermions with replica exchange”, M.-H. Chung and D. P. Landau, Phys. Rev. B 55, 115115 (6 pages) (2012).
“Massively parallel Wang-Landau Sampling on Multiple GPUs”, J. Yin and D. P. Landau, Comput. P{hys. Commun. 183, 1568-1573 (2012).
2011
“Structural properties and thermodynamics of water clusters: A Wang-Landau study”, Junqi Yin and D. P. Landau, J. Chem. Phys. 134, 074501 (9 pages) (2011).
“Von Neumann entropy and bipartite number fluctuation in quantum phase transitions”, M.H. Chung and D. P. Landau, Phys. Rev. B 83, 113104 (4 pages) (2011); erratum: Phys. Rev. B 83, 115115 (2012).
“Biologically inspired surface physics: The HP protein model”, Y.-W. Li, T. Wüst, and D. P. Landau, in Nanophenomena at Surfaces, ed. M. Michailov, pp.169-184 (Springer, Heidelberg, 2011).
“Role of diffusion in scaling of polymer chain aggregates found in vapor deposition polymerization”, S. Tangirala and D. P. Landau, Phys. Rev. E 83, 051804 (4 pages) (2011).
“Simulation evidence for nonlocal interface models: Two correlation lengths describe complete wetting”, L. Pang, D. P. Landau, and K. Binder, Phys. Rev. Lett. 106, 236102 (4 pages) (2011).
“Microcanonical entropy inflection points: Key to systematic understanding of transitions in finite systems”, S. Schnabel, D. T. Seaton, D. P. Landau, and M. Bachmann, Phys. Rev. E 84, 011127 (4 pages) (2011).
“Monte Carlo Simulations of the HP Model (the “Ising Model” of Protein Folding)”, Y.-W. Li, T. Wüst, and D. P. Landau, Comput. Phys. Commun. 182, 1896-1899 (2011).
“Unraveling the beautiful complexity of simple lattice model polymers and proteins using Wang-Landau sampling”, T. Wüst, Y. W. Li, and D. P. Landau, J. Stat, Phys. 144, 638-651 (2011).
“Phase Transitions in Thin Films with Competing Surface Fields and Gradients”, Lijun Pang, D. P. Landau, and K. Binder, Phys. Rev. E 84, 041603 (8 pages) (2011).
2010
“Oxygen Pairing on the Highly Non-Stoichiometric (110) Surface of TiO2”, S. J. Thompson, D. P. Landau and S. P. Lewis, Physics Procedia (online) 7, 103-106 (2010).
“Modeling relaxation-to-creep transition of domain-wall motion in ultrathin ferromagnetic and ferroelectric films”, N.J. Zhou, B. Zheng, and D. P. Landau, Europhys. Lett. 92, 36001 (5 pages) (2010).
“Monte Carlo simulations of protein models: At the interface between statistical physics and biology”, T. Wüst, D. P. Landau, C. Gervais, and Y. Xu, in BIOMAT 2009: International Symposium on Mathematical and Computational Biology, p.72-86 (2010).
“Monte Carlo study of the triangular XY Vector Blume-Emery-Griffiths model”, J. B. Santos-Filho, J. A. Plascak and D. P. Landau, Physica A 389, 2934-2938 (2010).
“Square lattice gases with two- and three-body interactions revisited: A row-shifted (2×2) phase”, J. Yin and D. P. Landau, Phys. Rev. E 81, 031121 (6 pages) (2010)
“Dynamic scaling study of vapor deposition polymerization: A Monte Carlo approach”, S. Tangirala, D.P. Landau, and Y.-P. Zhao, Phys. Rev. E 81, 011605 (10 pages) (2010).
“Collapse transitions in a flexible homopolymer chain: Application of the Wang-Landau algorithm”, D. T. Seaton, T. Wüst, and D. P. Landau, Phys. Rev. E 81, 011802 (10 pages) (2010).
2009
“Phase diagram and critical behavior of the square-lattice Ising model with competing nearest- and next nearest-neighbor interactions”. J. Yin and D. P. Landau, Phys. Rev. E 80, 051117 (8 pages) (2009).
“Domain growth in compressible 2D Ising models undergoing phase separation, S. J. Mitchell and D. P. Landau, Int. J. Mod. Phys. C 20, 1325-1333 (2009).
“Two-dimensional Wang-Landau sampling of an asymmetric Ising model”, S. H. Tsai, F. G. Wang, and D. P. Landau, Int. J. Mod. Phys. C 20, 1357-1366 (2009).
“Application of the Wang-Landau algorithm to the dimerization of glycophorin A”, C. Gervais, T. Wüst, D.P. Landau, and Y. Xu, J. Chem. Phys. 130, 215106 (7 pages) (2009).
“Versatile approach to access the low temperature thermodynamics of lattice polymers and proteins”, T.Wüst, and D.P. Landau, Phys. Rev. Lett. 102, 178101 (4 pages) (2009).
“Monte Carlo simulations of systems with complex energy landscapes”, T. Wüst, D. P. Landau, C. Gervais, and Y. Xu, Comput. Phys. Commun. 180, 475-479 (2009).
“Phase diagram of a two-dimensional large-Q Potts model in an external field”, S.H. Tsai and .P. Landau, Comput. Phys. Commun. 180, 485-487 (2009).
“A Wang-Landau study of the phase transitions in a flexible homopolymer”, D.T. Seaton, T. Wüst, and D.P. Landau, Comput. Phys. Commun. 180, 587-589 (2009).
2008
“Improving Wang-Landau sampling with adaptive windows:, A.G. Cunha-Netto, A.A. Caparica, S.H. Tsai, R. Dickman, and D.P. Landau, Phys. Rev. E 78, 055701 (R) (4 pages) (2008).
“Phase transitions and interface fluctuations in double wedges and bi-pyramids with competing surface fields”, M. Müller, A. Milchev, K. Binder, and D.P. Landau, Eur. Phys. J. B 64, 499-503 (2008).
“Monte Carlo simulation of film growth in a phase separating binary alloy model”, X. Tao, Y. Shim, and D.P. Landau, Physica A 387, 2495-2503 (2008).
“The HP model of protein folding: A challenging testing ground for Wang-Landau sampling”, T. Wüst and D. P. Landau, Comput. Phys. Commun. 179, 124-128 (2008).
“Critical endpoint behavior: A Wang-Landau study”, D. P. Landau, F. Wang, and S,-H. Tsai, Comput. Phys. Commun. 179, 8-12 (2008)
“Developments in Wang-Landau Simulations Simulations of a Simple Continuous Homopolymer”, D.T. Seaton, S. J. Mitchell and D.P. Landau, Braz. J. Phys. 38, 48-53 (2008).
“Unusual domain growth behavior in the compressible Ising model”, S.J. Mitchell, L.F.C. Pereira, and D.P. Landau, Braz. J. Phys. 38, 1-5 (2008).
“Uncovering the secrets of unusual phase diagrams: Applications of two-dimensional Wang-Landau sampling”, S.-H. Tsai, F. Wang, and D.P. Landau, Braz. J. Phys. 38, 6-11 (2008).
“Computer Simulations: A Window on Static and Dynamic Properties of Simple Spin Models in Statistical Physics”, S.-H. Tsai and D. P. Landau, Amer. J. Phys. 76, 445-452 (2008).
“Properties of Bose Einstein Condensates in a Quasi-one-dimensional Box Trap”, C. Zhang, K. Nho and D.P. Landau, Phys. Rev. A 77, 025601 (4 pages) (2008)
“Spin Dynamics, An Atomistic Simulation Tool for Magnetic Systems”, S.-H. Tsai, and D.P. Landau, Computing in Science and Engineering 10, 72-79 (2008).
Alexander von Humboldt Alumni Research Award, 2018
Doctor Honoris Causa degree from Universidade Federal de Minas Gerais, Brazil, 2016
Corresponding Member of the Brazilian Academy of Sciences, 2014
MAINZ Visiting Professor Award, “Materials science In mainZ” (MAINZ), 2013
Nicolson Medal for Human Outreach, American Physics Society, 2007
Fellow of the Institute of Science (London), 2004
Senior Guangbiao Distinguished Professor of Physics, Zhejiang University, 2004
Lamar Dodd Research Award, 2003
Aneesur Rahman Prize for Computational Physics, American Physical Society, 2002
Fellow, Japan Society for the Promotion of Science, 1999
Senior Teaching Fellow, University of Georgia, 1993
Alexander von Humboldt Senior U.S. Scientist Award, 1988
Jesse W. Beams Award for Outstanding Research, American Physical Society S.E. Section, 1987
Creative Research Medal, University of Georgia, 1981
Fellow, American Physical Society, 1976
Alexander von Humboldt Fellow, 1975