[107] A. Weh, Y. Zhang, A. Östlin, H. Terletska,
D. Bauernfeind, K.-M. Tam, H.G. Evertz, K. Byczuk, D. Vollhardt, and
L. Chioncel,
Dynamical mean-field theory of the
Anderson-Hubbard model with local and non-local disorder in tensor
formulation,
Phys. Rev. B
104, 045127 (2021) pdf (arxiv:2105.06971)
[106] Florian Maislinger and Hans Gerd Evertz,
Impact ionization and multiple photon
absorptions in the two-dimensional photoexcited Hubbard model,
Phys. Rev. B
105, 045114 (2022) pdf
(arxiv:2007.16201)
[105] A. Weh, J. Otsuki, H. Schnait, H.G. Evertz,
U. Eckern, A.I. Lichtenstein, and L. Chioncel,
Spectral properties of heterostructures
containing half-metallic ferromagnets in the presence of local
many-body correlations,
Phys. Rev.
Research 2, 043263 (2020) pdf (arxiv:2007.02804)
[104] Daniel Bauernfeind, Markus Aichhorn, and
Hans Gerd Evertz,
Comparison of MPS based real time evolution
algorithms for Anderson Impurity Models,
arxiv:1906.09077 pdf
[103] Daniel Bauernfeind, Robert Triebl, Manuel
Zingl, Markus Aichhorn, and Hans Gerd Evertz,
Dynamical Mean-Field Theory on the
Real-Frequency Axis: p-d Hybridizations and Atomic Physics in
SrMnO3,
Phys. Rev. B 97,
115156 (2018) pdf (arxiv:1712.08055)
[102] Georg W. Winkler, Martin Ganahl, Dirk
Schuricht, Hans Gerd Evertz, and Sabine Andergassen,
Interaction effects in a microscopic quantum
wire model with strong spin-orbit interaction,
New. J. Phys. 19,
063009 (2017) (open access) pdf
(arxiv:1701.03793)
[101] Daniel Bauernfeind, Manuel Zingl, Robert
Triebl, Markus Aichhorn, and Hans Gerd Evertz,
Fork Tensor Product States - Efficient Three
Orbital Real Time DMFT Solver,
Phys. Rev. X 7,
031013 (2017) (open access) pdf
(arxiv:1612.05587)
[100] Victor Eisler, Florian Maislinger, and H.G.
Evertz,
Universal front
propagation in the quantum Ising chain with domain-wall initial
states,
SciPost
Phys. 1, 014 (2016) (open
access) pdf
(arxiv:1610.01540v3)
[99] R. Vlijm, M. Ganahl, D. Fioretto, M.
Brockmann, M. Haque, H.G. Evertz, and J.-S. Caux,
Quasi-soliton scattering in quantum spin
chains,
Phys.
Rev. B 92, 214427 (2015)
(open access) pdf
(arxiv:1507.08624v2 )
[98] Antonius Dorda, Martin Ganahl, Hans Gerd
Evertz, Wolfgang von der Linden, and Enrico Arrigoni,
Auxiliary master equation approach
within matrix product states: Spectral properties of the
nonequilibrium Anderson impurity model,
Phys.
Rev. B 92, 125145 (2015)
(Editor's Suggestion) pdf
(arxiv:1507.02982
)
[97] Martin Nuss, Martin Ganahl, Enrico Arrigoni,
Wolfgang von der Linden, and Hans Gerd Evertz,
Nonequilibrium, spatio-temporal
formation of the Kondo screening-cloud on a lattice,
Phys.
Rev. B 91, 085127 (2015)
(open access) pdf
(arxiv:1409.0646
)
[96] Martin Ganahl, Markus Aichhorn, Patrik
Thunström, Karsten Held, Hans Gerd Evertz, and Frank Verstraete,
Efficient DMFT impurity solver using
real-time dynamics with Matrix Product States,
Phys.
Rev. B 92, 155132 (2015)
pdf
(arxiv:1405.6728v3)
[95] Martin Ganahl, Patrik Thunström, Frank
Verstraete, Karsten Held, and Hans Gerd Evertz,
Chebyshev Expansion for Impurity Models
using Matrix Product States,
Phys.
Rev. B 90, 045144 (2014)
pdf
(arxiv:1403.1209 )
[94] Robert Achleitner, Hans Gerd Evertz, Masatoshi
Imada, Ralf Gamillscheg, and Peter Mohn,
Quantum Monte Carlo Simulations for
Stacked Spin Ladder Systems Containing Low Concentrations of
Non-Magnetic Impurities;
Application to the Low
Temperature Broadening of NMR-Spectra in SrCu2O,
Phys.
Rev. B 88, 214422 (2013)
pdf
(arxiv:1310.1697)
[93] Martin Ganahl, Masud Haque, and Hans Gerd
Evertz,
Quantum Bowling: Particle-hole
transmutation in one-dimensional strongly interacting lattice
models,
arxiv:1302.2667 pdf
[92] Martin Nuss, Martin Ganahl, Hans Gerd Evertz,
Enrico Arrigoni, and Wolfgang von der Linden,
Steady-state and quench dependent
relaxation of a quantum dot coupled to one-dimensional leads,
Phys.
Rev. B 88, 045132 (2013) (Editor's
Suggestion, open access)
pdf
(arxiv:1301.3068)
[91] Martin Nuss, Christoph Heil, Martin Ganahl,
Michael Knap, Hans Gerd Evertz, Enrico Arrigoni, and Wolfgang von
der Linden,
Steady-state spectra, current and
stability diagram of a quantum dot: a non-equilibrium Variational
Cluster Approach,
Phys.
Rev. B 86, 245119 (2012) (open access)
pdf
(arxiv:1207.5641)
[90] Valentin Zauner, Martin Ganahl, Hans Gerd
Evertz, and Tomotoshi Nishino,
Time Evolution within a Comoving
Window: Scaling of signal fronts and magnetization plateaus after
a local quench in quantum spin chains,
J.
Phys.: Condens. Matter 27, 425602 (2015) (open access) pdf
(arxiv:1207.0862v3)
[89] Y. Delgado, H.G. Evertz, and C. Gattringer,
Worm algorithms for the 3-state Potts
model with magnetic field and chemical potential,
Computer
Physics Communications 183, 1920 (2012) pdf
(arxiv:1202.42930)
[88] Martin Ganahl, Elias Rabel, Fabian H. L.
Essler, and Hans Gerd Evertz
Observation of complex bound states in
the spin-1/2 Heisenberg XXZ chain using local quantum quenches,
Phys.
Rev.
Lett. 108, 077206 (2012) pdf
(arxiv:1112.3355)
[87] Y. Delgado, H.G. Evertz, C. Gattringer, and D.
Göschl,
The QCD Phase Diagram with Effective Theories,
Proceedings
of
Science PoS(Lattice 2011) 190 (2011) pdf
(arxiv:1111.0916)
[86] Y. Delgado, H.G. Evertz, and C. Gattringer,
Solving the Complex Phase Problem in a
QCD Related Model,
Acta
Physica Polonica B Proc. Suppl. 4, 703 (2011) pdf
(arxiv:1110.6862)
[85] E. Assmann, S. Chiesa, G. G. Batrouni, H. G.
Evertz, and R. T. Scalettar,
Superconductivity and charge order of
confined Fermi systems,
Phys.
Rev. B 85, 014509 (2012)
(Editor's Suggestion)
pdf
(arxiv:1108.6303)
[84] Y. Delgado Mercado, H.G. Evertz, and C.
Gattringer,
The QCD phase diagram according to the
center group,
Phys.
Rev.
Lett. 106, 222001 (2011) pdf
(arxiv:1102.3096)
[83] B. Bauer, L. D. Carr, H.G. Evertz, A. Feiguin,
J. Freire, S. Fuchs, L. Gamper, J. Gukelberger, E. Gull,
S. Guertler, A. Hehn, R. Igarashi, S.V. Isakov, D. Koop, P.N. Ma, P.
Mates, H. Matsuo, O. Parcollet,
G. Pawlowski, J.D. Picon, L. Pollet, E. Santos, V.W. Scarola, U.
Schollwöck, C. Silva, B. Surer, S. Todo,
S. Trebst, M. Troyer, M.L. Wall, P. Werner, S. Wessel
The ALPS project release 2.0: Open
source software for strongly correlated systems,
J.
Stat. Mech. P05001 (2011) pdf (arxiv:1101.2646)
[82] Y. Delgado Mercado, H.G. Evertz, and C.
Gattringer,
Simulation of the 3-state Potts model
with chemical potential,
Proc. of the
conference on Quark Confinement and the Hadron Spectrum IX, Madrid
2010,
AIP Conf. Proc.
1343, 619
(2011)
pdf
[81] A.W. Sandvik and H.G. Evertz,
Loop updates for variational and
projector quantum Monte Carlo simulations in the valence-bond
basis,
Phys. Rev. B.
82, 024407 (2010) pdf
(Editor's
Suggestion) (arxiv:0807.0682)
[80] P. Pippan, S.R. White, and H.G. Evertz,
Efficient Matrix Product State Method for
periodic boundary conditions,
Phys. Rev. B.
81, 081103(R) (2010) pdf
(Editor's
Suggestion, Rapid Communication) (arxiv:0801.1947)
[79] B. Hetenyi, H.G. Evertz, and W. von der
Linden,
Effect of the exchange hole on the Gutzwiller approximation in one
dimension,
Phys.
Rev. B. 80, 04107 (2009) pdf
(arxiv:0906.2878)
[78] P. Pippan, H.G. Evertz, and M.
Hohenadler,
Excitation spectra of strongly
correlated lattice bosons and polaritons in one dimension,
Phys. Rev. A.
80, 033612 (2009) pdf
arxiv:0904.1350
[77] Balázs Hetényi and Hans Gerd Evertz,
Parametrized canonical transformation for the
Hubbard model at arbitrary interaction strength,
Phys. Rev. B.
78, 033110 (2008) pdf
(arxiv:0806.3848)
[76] F.F. Assaad and H.G. Evertz,
World line and determinantal Quantum
Monte Carlo methods for spins, phonons, and electrons,
Heraeus
Summer
School, Greifswald. Springer
Lecture Notes in Physics 739, ed. H. Fehske et al.
(2008) (Preprint pdf)
[75] F. Michel and H.G. Evertz,
Lattice dynamics of the Heisenberg
chain coupled to finite frequency bond phonons,
arxiv:07050799 pdf
[74] B. Edegger, H.G. Evertz, and R.M. Noack,
Creation and destruction of a spin gap
in weakly coupled quarter-filled ladders
Phys.
Rev. Lett. 96, 146401 (2006) (pdf)
(Preprint
cond-mat/0510325
pdf)
[73] D.R. Neuber, M. Daghofer, H.G. Evertz, W. von
der Linden, and R.M. Noack,
Ferromagnetic polarons in the
one-dimensional ferromagnetic Kondo model
with quantum mechanical
S=3/2 core spins,
Phys. Rev.
B73, 014401 (2006) (pdf
640kB) (Preprint cond-mat/0501251
pdf)
[72] B. Edegger, H.G. Evertz, and R.M. Noack,
Charge order induced by
electron-lattice interaction in NaV2O5
Phys. Rev.
B72, 085131 (2005) (pdf)
(Preprint
cond-mat/0505685
pdf)
[71] M. Daghofer, W. Koller, A. Prüll, H.G. Evertz,
and W. von der Linden,
Aspects of the FM Kondo Model: From
Unbiased MC Simulations to Back-of-an-Envelope Explanations
Springer Lecture Notes
in Physics 678 (2005), ed. M. Donath and
W. Nolting, (pdf 990kB)
cond-mat/0512462
pdf 450kB
[70] M. Daghofer, W. Koller, A. Prüll, H.G. Evertz,
and W. von der Linden,
Spin-Polarons in the FM Kondo model,
in Computer Simulation Studies
in Condensed Matter Physics XVII, (2004)
eds. D.P. Landau, S. P. Lewis,
and H.-B. Schüttler,
Springer
Proceedings
in Physics 103, 276 (2006). pdf
[69] M. Aichhorn, E.Ya. Sherman, and H.G. Evertz,
Single-particle spectral function of quarter-filled
ladder systems
Phys. Rev.
B72, 155110 (2005) (pdf)
(Preprint
cond-mat/0409162
pdf).
[68] C. Gabriel, E. Sherman, T.C. Lang, M.
Aichhorn, and H.G. Evertz,
Finite Temperature investigation of quarter-filled ladder systems
Physica B359,
1400 (2005) (pdf)
(Preprint
cond-mat/0406715
pdf).
[67] M. Daghofer, W. Koller, W. von der Linden, and
H.G. Evertz,
Single particle spectrum of the flux
phase in the FM Kondo Model
Physica B359,
804 (2005) (pdf)
(Preprint
cond-mat/0406635
pdf)
[66] M. Daghofer, M. Konneger, H.G. Evertz, and W.
von der Linden,
Perfect Tempering
Full version:
physics/0512167 pdf;
Short version: AIP Conf. Proc. 735,
355 (2004)
[65] M. Hohenadler, H.G. Evertz and W. von der
Linden,
Quantum Monte Carlo approach to the Holstein polaron problem
Phys. Stat. Sol.
(B) 262, 1406 (2005) (pdf)
(Detailed:
cond-mat/0401634
pdf)
[64] M. Daghofer, W. Koller, H.G. Evertz, and W.
von der Linden,
Ferromagnetic Polarons, Phase
Separation, Stripes and Polaron Lattice:
The two- and three-dimensional ferromagnetic Kondo Model
cond-mat/0410274
pdf
900kB
[63] J. Spitaler, E.Ya. Sherman, H.G. Evertz,
and C. Ambrosch-Draxl,
Optical properties, electron-phonon coupling, and Raman scattering
of vanadium ladder compounds
Phys. Rev.
B70, 125107 (2004) (pdf800kB)
(Preprint
cond-mat/0404076
pdf 650kB)
[62] M. Aichhorn, H.G. Evertz, W. von der Linden
and M. Potthoff,
Charge ordering in extended Hubbard models: Variational cluster
approach
Phys. Rev.
B70, 235107 (2004) (pdf400kB),
(Preprint
cond-mat/0402580
pdf 390kB).
[61] J. Spitaler, E.Ya. Sherman, C. Ambrosch-Draxl,
and H.G. Evertz,
Optical Properties and Raman scattering of vanadium ladder
compounds
Physica
Scripta
T109, 159 (2004) (pdf634kB) cond-mat/0401458
(pdf).
[60] M. Aichhorn, M. Hohenadler, E.Ya. Sherman, J.
Spitaler, C. Ambrosch-Draxl, and H.G. Evertz
Charge ordering in quarter filled ladder
systems coupled to the lattice
Phys. Rev.
B69, 0245108 (2004) (pdf370kB)
(Preprint
cond-mat/0312523).
[59] M. Daghofer, W. Koller, H.G. Evertz, and W.
von der Linden,
Polaronic Aspects of the two-dimensional
Ferromagnetic Kondo Model
J.Phys. Cond.Matt
16, 5469 (2004) (pdf390kB)
(Preprint cond-mat/0312394
pdf820kB).
[58] M. Hohenadler, H.G. Evertz and W. von der
Linden,
Quantum Monte Carlo and Variational Approaches to the Holstein
model
Phys. Rev.
B69, 024301 (2004) (pdf 240kB)
(Preprint cond-mat/0305387).
[57] W. Koller, A. Prüll, H.G. Evertz, and W. von
der Linden,
Magnetic Polarons in the 1D FM Kondo model
Phys. Rev.
B67, 174418 (2003) (pdf
210kB) (Preprint cond-mat/0301350).
[56] W. Koller, A. Prüll, H.G. Evertz, and W. von
der Linden,
Uniform
hopping
approach to the FM Kondo Model at finite temperature
Phys. Rev.
B67, 104432 (2003) (pdf)
(Preprint
cond-mat/0211672).
[55] M. Aichhorn, M. Daghofer, H.G. Evertz, and W.
von der Linden,
Low Temperature Lanczos Method for strongly
correlated systems
Phys. Rev.
B67, 161103R (2003) (pdf)
(Rapid
Communication) (Preprint cond-mat/0211165).
[54] W. Koller, A. Prüll, H.G. Evertz, and W. von
der Linden,
Effective spinless fermions in the strong
coupling Kondo model
Phys. Rev.
B66, 144425 (2002) (pdf
280kB) (Preprint cond-mat/0206049).
[53] G. Esirgen, H.-B. Schüttler, C. Gröber, and
H.G. Evertz,
Screened-interaction expansion for the
Hubbard model and determination of the QMC Fermi surface
Phys. Rev.
B64, 195105 (2001) (pdf)
(Preprint
cond-mat/0105514).
[52] H.-B. Schüttler, C. Gröber, H.G. Evertz,
and W. Hanke,
Screening of long-range Coulomb interactions
in the quasi two-dimensional extended Hubbard model:
A combined Monte Carlo and Feynman diagram
study
cond-mat/0104300
(pdf)
[51] H.G. Evertz, H.M. Erkinger, and W. von der
Linden,
New cluster method for the Ising model,
in "Computer Simulation Studies in
Condensed Matter Physics XIV,"
eds. D.P. Landau, S. P. Lewis,
and H.-B. Schüttler, Springer 2002, p. 123 (pdf)
[50] D. Veberic, P. Prelovsek, and H.G. Evertz,
Diamagnetic properties of doped
antiferromagnets
in "Open Problems in Strongly Correlated Electron Systems",
ed. J. Bonca et al., Kluwer 2001, p.
451. ( Preprint cond-mat/0203519
pdf)
[49] H.G. Evertz and W. von der Linden,
Simulations on Infinite Size Lattices
Phys.
Rev. Lett. 86, 5164 (2001) (pdf)
(Preprint
cond-mat/0008072).
[48] D. Veberic, P. Prelovsek, and H.G. Evertz,
Thermodynamic and diamagnetic properties of
weakly doped antiferromagnets
Phys. Rev. B62,
6745 (2000) (pdf)
(Preprint
cond-mat/0002220
).
[47] D.P. Landau, A. Bunker, H.G. Evertz, M. Krech,
and S.-H. Tsai,
Spin Dynamics Simulations - a powerful method
for the study of critical dynamics
Prog. Theor. Phys.
Suppl. 138, 423 (2000) (pdf 280kB)
(Preprint cond-mat/9912375).
[46] H.-B. Schüttler, C. Gröber, H.G. Evertz, W.
Hanke,
Overscreening in Hubbard electron systems
cond-mat/9805133 (pdf)
[45] S. Kirchner, H.G. Evertz, W. Hanke,
Transport Properties of One-Dimensional
Hubbard Models
Phys. Rev. B59,
1825 (1999) (pdf
270kB) (Preprint cond-mat/9804148).
[44] B. Ammon, H.G. Evertz, N. Kawashima, M. Troyer
and B. Frischmuth,
Quantum Monte Carlo Loop algorithm for tJ and
related models
Phys. Rev. B58,
4304 (1998) (pdf 760kB)
(cond-mat/9711022)
[43] H.G. Evertz,
The Loop Algorithm (3rd edition, July 2002)
Advances
in
Physics 52, 1-66 (2003) (pdf 540kB)
(cond-mat/9707221v3
);
(2nd edition January 2000 cond-mat/9707221v2
(pdf 590kB)
; 1st edition July 1997 cond-mat/9707221v1
(pdf 430kB)
)
[42] R. Preuss, W. Hanke, C. Gröber and H.G.
Evertz,
Pseudogaps and their Interplay with Magnetic Excitations in the
doped 2D Hubbard Model
Phys.
Rev. Lett. 79, 1122 (1997) (pdf 1100kB)
(cond-mat/9701097)
[41] H. Endres, W. Hanke, H.G. Evertz and F.F.
Assaad,
Comment on "Quantum Monte Carlo Evidence for Superconductivity
in the Three-Band Hubbard Model
in Two Dimensions"
Phys.
Rev. Lett. 78, 160 (1997) (pdf)
(cond-mat/9609219)
[40] H.G. Evertz, D.P. Landau,
Critical Dynamics in the 2d Classical
XY-model: A Spin Dynamics Study
Phys. Rev. B54,
12302 (1996) (pdf
395kB) (cond-mat/9607063)
[39] H.G. Evertz,
Coupled Quantum Chains: A
bumpy path from 1 to 2 dimensions
invited talk, in ``Computer
Simulations in Condensed Matter Physics IX'',
ed. D.P. Landau et al.,
Springer Proceedings in Physics, 1996, p. 59. (pdf)
[38] H.G. Evertz and D.P. Landau,
Spin dynamics calculations in the
two-dimensional classical XY-model
in ``Computer
Simulations
in Condensed Matter Physics VIII'',
ed. D.P. Landau et al.,
Springer Proceedings in Physics, 1995, p. 175. (pdf)
[37] N. Kawashima, J. Gubernatis and
H.G. Evertz,
Loop algorithms for quantum simulations of
fermion models on lattices
Phys. Rev. B50,
136 (1994) (pdf 2.6MB)
(cond-mat/9403082)
[36] H.G. Evertz and M. Marcu,
A Cluster Algorithm for Vertex Models and
Quantum Spin Systems
in ``High
Performance
Computing and its Applications in the Physical Sciences'',
ed. D.A. Browne et al., World
Scientific 1994, p.104.
[35] H.G. Evertz,
Vectorized Search for Single Clusters
J. Stat. Phys. 70,
1075 (1993) ( pdf
).
[34] H.G. Evertz and M. Marcu,
Overcoming Critical Slowing Down in Quantum
Monte Carlo Simulations
invited book
contribution, in "Quantum
Monte Carlo Methods in Condensed Matter Physics",
ed. M. Suzuki, World
Scientific, 1993, p. 65. (pdf)
[33] M.A. Novotny and H.G. Evertz,
Monte Carlo Renormalization Group Study of
the d=1 XXZ Model
invited book
contribution, in "Quantum
Monte Carlo Methods in Condensed Matter Physics",
ed. M. Suzuki, World
Scientific, 1993, p. 49. (Preprint cond-mat/9309047 pdf).
[32] H.G. Evertz, M. Hasenbusch, M. Marcu and
K. Pinn,
The Solid-on-Solid Surface Width Around the
Roughening Transition
Physica
A 199 (1993) 31. (pdf
450kB) (cond-mat/9305029)
[31] H.G. Evertz and M. Marcu,
A nonlocal approach to Vertex Models and
Quantum Spin Systems
Int. J. Mod.
Phys. C 4 (1993) 1147.
[30] M.A. Novotny and H.G. Evertz,
Computer
Studies of the Baxter-Wu model:
Algorithms, Corrections to Scaling and
Regular Impurities
in ``Computer
Simulations in Condensed Matter Physics VI'',
ed. D.P. Landau et al.,
Springer Proceedings in Physics 76, 1993, p. 188.
[29] H.G. Evertz and M. Marcu,
Vertex Models and Quantum Spin Systems: A
nonlocal approach
invited talk, in
``Computer
Simulations in Condensed Matter Physics VI'',
ed. D.P. Landau et al.,
Springer Proceedings in Physics 76, 1993, p. 109. (Preprint cond-mat/9305019 pdf).
[28] H.G. Evertz and M. Marcu,
The Loop-Cluster Algorithm for the case of
the 6 Vertex Model
in Lattice 92, Amsterdam
1992, ed. J. Smit et al.,
Nucl.
Phys. B S30 (1993) 277 (pdf
310kB) (Preprint: hep-lat/9211047).
[27] H.G. Evertz, G. Lana and M. Marcu,
Cluster Algorithm for Vertex models
Phys.
Rev. Lett. 70, 875 (1993) (pdf 810kB)
(Preprint
cond-mat/9211006
).
[26] H.G. Evertz,
Vectorized Cluster Search
in Lattice 91, Tsukuba
1991, ed. M. Fukugita et al,
Nucl.
Phys. B S26 (1992) 620 (pdf 220kB)
(Preprint: hep-lat/9112001).
[25] H.G. Evertz, M. Hasenbusch, M. Marcu, K. Pinn
and S. Solomon,
Cluster Algorithms for Surfaces
Int. J. Mod.
Phys. C 3 (1992) 235. (pdf)
[24] H.G. Evertz, M. Hasenbusch, M. Marcu, K.
Pinn and S. Solomon,
High Precision Measurement of the SOS
Surface Thickness in the Rough Phase
J. Phys. I France 1
(1991) 1669. (pdf)
[23] H.G. Evertz,
Ergodicity of BFACF moves for unrooted
polygons in more than three dimensions
(1991, unpublished) (pdf)
[22] R. Ben-Av, H.G. Evertz, M. Marcu and S.
Solomon,
Critical Acceleration of Finite Temperature
SU(2) Gauge Simulations
Phys. Rev. D44
(1991) R2953. (Rapid Communication) (pdf 590kB)
[21] H.G. Evertz, M. Hasenbusch, M. Marcu, K.
Pinn and S. Solomon,
Stochastic Cluster Algorithms for Discrete
Gaussian (SOS) Models
Phys.
Lett. 254B (1991) 185 (pdf
550kB)
[20] R. Ben-Av, H.G. Evertz, M. Marcu and S.
Solomon,
Towards Cluster Algorithms for SU(2) Gauge
Theories
Nucl.
Phys. B S20 (1991) 85 (pdf
260kB)
[19] H.G. Evertz, M. Hasenbusch, M.
Marcu, K. Pinn and S. Solomon,
Surface Simulations without Critical
Slowing Down
Nucl.
Phys. B S20 (1991) 80 (pdf
410kB)
[18] W. Bock, H.G. Evertz, K. Jansen,
J. Jersák, K. Kanaya, H.A. Kastrup, D.P. Landau, T. Neuhaus and J.L.
Xu,
Screening of the confinement potential in
the SU(2) lattice gauge theory with scalar matter
Z. Phys. C 45 (1990)
597 (pdf
870kB)
[17] W. Bock, H.G. Evertz, J. Jersák,
T. Neuhaus, D.P. Landau and J.L. Xu,
Search for critical points in the SU(2)
Higgs Model
Phys. Rev. D 41,
2573 (1990) (pdf 1500kB)
[16] H.G. Evertz, E. Katznelson, P.G. Lauwers
and M. Marcu,
Towards a Better Quantitative understanding
of the SU(2) Higgs Model
Phys.
Lett. 221B (1989) 143 (pdf
670kB)
[15] H.G. Evertz, E. Katznelson, P.G. Lauwers
and M. Marcu,
Finite Size Effects in the SU(2) Higgs
Model: A Numerical Investigation
in ``Lattice
Higgs
Workshop'', Tallahassee 1988, ed. B. Berg et al., World
Scientific, 1989, p. 126. (preprint)
[14] H.G. Evertz and M. Marcu,
The Higgs Mechanism in the Framework of
Lattice Gauge Theories
Invited
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Physics:
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[13] H.G. Evertz,
Lattice Analysis of the Higgs Mechanism (in German)
Ph.D. Thesis, Aachen 1987
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[12] H.G. Evertz, K. Fredenhagen, K. Jansen,
J. Jersák, H.A. Kastrup and M. Marcu,
Proof of Universal Perimeter Law Behaviour of the
Wegner Wilson Loop
in Nonabelian Lattice Gauge Theories with
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Phys.
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300kB)
[11] H.G. Evertz, V. Grösch, K. Jansen, J. Jersák
and H.A. Kastrup,
Confined and Free Charges in Compact Scalar
QED
Nucl.
Phys. B285 [FS19] (1987) 559 (pdf
1500kB)
[10] H.G. Evertz, K. Jansen, J. Jersák,
C.B. Lang and T. Neuhaus,
Photon and Bosonium Masses in Scalar
Lattice QED
Nucl.
Phys. B285 [FS19] (1987) 590 (pdf
800kB)
[ 9] H.G. Evertz, K. Kanaya and J.
Jersák,
Finite Temperature SU(2) Higgs Model on a Lattice
Nucl.
Phys. B285 [FS19] (1987) 229 (pdf
1200kB)
[ 8] H.G. Evertz, V. Grösch, J.
Jersák, H.A. Kastrup, T. Neuhaus, D.P. Landau and J.-L. Xu,
Monte Carlo Analysis of Gauge Invariant Two-Point Functions in
an SU(2) Higgs Model
Phys.
Lett. 175B (1986) 335 (pdf
700kB)
[ 7] H.G. Evertz, J. Jersák, C.B. Lang
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SU(2) Higgs Boson and Vector Boson Masses on the Lattice
Phys.
Lett. 171B (1986) 271 (pdf 500kB)
[ 6] H.G. Evertz, K. Jansen, J. Jersák,
H.A. Kastrup and T. Neuhaus,
Mass Computations in the U(1)-Higgs and SU(2)-Higgs Lattice
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invited talk;
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and P.M. Zerwas,
Tricritical Point in Lattice QED
Nucl.
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900kB)
[ 4] H.G. Evertz and D. Horn,
Vacuum structure of periodic QED in 2+1
dimensions
Phys. Rev. D 30,
2664 (1984) (pdf 820kB)
[ 3] H.G. Evertz,
Mixing angles in weak decays of heavy quarks
(in German)
Diploma Thesis, Aachen, 1983.
[ 2] I. Bigi and H.G. Evertz,
On
Extracting Weak Quark Couplings from Bottom and Top Decays
Nucl.
Phys. B216 (1983) 359 (pdf
600kB)
[ 1] I. Bigi and H.G. Evertz,
On Extracting Quark Mixing Angles in B Meson Decays
Moriond
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