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25 results on '"E. Laermann"'

1. Chiral crossover in QCD at zero and non-zero chemical potentials

Author

A. Bazavov, H.-T. Ding, P. Hegde, O. Kaczmarek, F. Karsch, N. Karthik, E. Laermann, Anirban Lahiri, R. Larsen, S.-T. Li, Swagato Mukherjee, H. Ohno, P. Petreczky, H. Sandmeyer, C. Schmidt, S. Sharma, and P. Steinbrecher

Subjects
Physics, QC1-999
Abstract

We present results for pseudo-critical temperatures of QCD chiral crossovers at zero and non-zero values of baryon (B), strangeness (S), electric charge (Q), and isospin (I) chemical potentials μX=B,Q,S,I. The results were obtained using lattice QCD calculations carried out with two degenerate up and down dynamical quarks and a dynamical strange quark, with quark masses corresponding to physical values of pion and kaon masses in the continuum limit. By parameterizing pseudo-critical temperatures as Tc(μX)=Tc(0)[1−κ2X(μX/Tc(0))2−κ4X(μX/Tc(0))4], we determined κ2X and κ4X from Taylor expansions of chiral observables in μX. We obtained a precise result for Tc(0)=(156.5±1.5) MeV. For analogous thermal conditions at the chemical freeze-out of relativistic heavy-ion collisions, i.e., μS(T,μB) and μQ(T,μB) fixed from strangeness-neutrality and isospin-imbalance, we found κ2B=0.012(4) and κ4B=0.000(4). For μB≲300 MeV, the chemical freeze-out takes place in the vicinity of the QCD phase boundary, which coincides with the lines of constant energy density of 0.42(6)GeV/fm3 and constant entropy density of 3.7(5)fm−3.

Published
2019
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2. The melting and abundance of open charm hadrons

Author

A. Bazavov, H.-T. Ding, P. Hegde, O. Kaczmarek, F. Karsch, E. Laermann, Y. Maezawa, Swagato Mukherjee, H. Ohno, P. Petreczky, C. Schmidt, S. Sharma, W. Soeldner, and M. Wagner

Subjects
Physics, QC1-999
Abstract

Ratios of cumulants of conserved net charge fluctuations are sensitive to the degrees of freedom that are carriers of the corresponding quantum numbers in different phases of strong interaction matter. Using lattice QCD with 2+1 dynamical flavors and quenched charm quarks we calculate second and fourth order cumulants of net charm fluctuations and their correlations with other conserved charges such as net baryon number, electric charge and strangeness. Analyzing appropriate ratios of these cumulants we probe the nature of charmed degrees of freedom in the vicinity of the QCD chiral crossover region. We show that for temperatures above the chiral crossover transition temperature, charmed degrees of freedom can no longer be described by an uncorrelated gas of hadrons. This suggests that the dissociation of open charm hadrons and the emergence of deconfined charm states sets in just near the chiral crossover transition. Till the crossover region we compare these lattice QCD results with two hadron resonance gas models—including only the experimentally established charmed resonances and also including additional states predicted by quark model and lattice QCD calculations. This comparison provides evidence for so far unobserved charmed hadrons that contribute to the thermodynamics in the crossover region.

Published
2014
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3. Cutoff effects in lattice actions at µ ≠ 0

Author

E. Laermann, S. Scheredin, F. Karsch, and P. Hegdea

Subjects
Physics, Pure mathematics, High Energy Physics::Lattice, Quantum electrodynamics, Lattice (order), General Physics and Astronomy, Cutoff, Rotational invariance, Lattice QCD, Fermion, Series expansion
Abstract

We look at the cutoff dependence of several lattice actions, including two improved actions viz. Naik and p4, and and chirally-invariant ones, namely fixed-point, overlap and domain-wall, with the aim of understanding its behavior at µ ≠ 0. Apart from numerical results, we also derive a series expansion in Nr−1 for the free-gas pressure. We find that actions with O(an)-improved rotational invariance produce O(an)-improvement in the pressure. The series for unimproved overlap and domain-wall fermions are identical to the naive series, and hence using Naik or p 4 kernels should produce improvement in these formulations as well. Lastly, we find that actions that are improved at µ = 0 remain so as the chemical potential is turned on. The series coefficients become µ-dependent now, however their functional form at any given order is the same for all actions.

Published
2011

4. Lattice calculation of medium effects at short and long distances

Author

P. Petreczky, O. Kaczmarek, F. Karsch, E. Laermann, S. Stickan, I. Wetzorke, and F. Zantow

Subjects
quasiparticle: mass generation, Quark, Nuclear and High Energy Physics, talk: Stony Brook 2001/01/15, approximation: quenching, Coulomb gauge, High Energy Physics::Lattice, Nuclear Theory, FOS: Physical sciences, fermion: lattice field theory, Quenched approximation, High Energy Physics - Phenomenology (hep-ph), High Energy Physics - Lattice, Lattice (order), gluon: propagator, heavy quark, quark gluon: plasma, Gauge fixing, Physics, Quantum chromodynamics, screening, High Energy Physics - Lattice (hep-lat), High Energy Physics::Phenomenology, Mass generation, Lattice, Propagator, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, quark: potential, Gluon, High Energy Physics - Phenomenology, Quantum electrodynamics, gauge field theory: SU(3), quark: propagator, High Energy Physics::Experiment, numerical calculations: Monte Carlo
Abstract

We investigate medium effects in QCD like chromoelectric screening and quasi-particle mass generation by calculating the heavy quark potential as well as the temporal quark and gluon Coulomb gauge propagators in quenched approximation., To appear in proceedings of Quark Matter 2001, 4 pages LaTeX, uses espcrc1.sty

Published
2002

5. Wightman: The Collected Works of Eugene Paul Wigner: Part A: The Scientific Papers, Vol. II: Nuclear Physics, Vol. IV: 1. Physical Chemistry, 2. Solid State Physics/Demtröder: Experimentalphysik 3 Atome, Moleküle und Festkörper/Montvay u. Münster: Quantum

Author

G. Baumann, R. Haag, D. Auerbach, A. Wunderlin, E. Laermann, Dieter Hoffmann, H. Rechenberg, E. Binder, and K.-H. Meiwes-Broer

Subjects
Physics, Theoretical physics, Solid-state physics, Quantum, Mathematical physics
Published
1998

6. Passing through the ‘chiral limit’ in quenched QCD with Wilson fermions

Author

V.K. Mitrjushkin, A. Hoferichter, P. Schmidt, Michael Müller-Preussker, and E. Laermann

Subjects
Quark, Physics, Quantum chromodynamics, Nuclear and High Energy Physics, Particle physics, High Energy Physics::Lattice, High Energy Physics - Lattice (hep-lat), High Energy Physics::Phenomenology, FOS: Physical sciences, Propagator, Fermion, Lattice QCD, Atomic and Molecular Physics, and Optics, High Energy Physics - Lattice, Pion, Limit (mathematics), Phase diagram
Abstract

We investigate the limit of vanishing quark mass in quenched lattice QCD with unimproved Wilson fermions at $\beta=6.0$. Exploiting the correlations of propagators at different time slices we extract pion masses extremely close to the `chiral limit', despite the presence of `exceptional configurations'. With this at hand, the existence of quenched chiral logarithms can be demonstrated, provided, finite size effects are small. With reference to the phase diagram proposed by Aoki also the range $\kappa > \kappa_c$ is investigated. The width of a potential parity-flavor violating phase can, if at all, hardly be resolved., Comment: LATTICE98(spectrum)

Published
1999

7. BG/L Calculations of the QCD Critical Temperature and Equation of State

Author

T Battacharya, C Schmidt, P Petreczky, W. Soeldner, L Levkova, A Bazavov, Dwight Renfrew, K. Huebner, Robert D. Mawhinney, R Sugar, P Vranas, F Karsch, R Soltz, D Toussaint, C. K. Jung, U Heller, Thomas Luu, M. Cheng, S Gottlieb, C DeTar, N H Christ, Rohit Gupta, and E Laermann

Subjects
Physics, Quantum chromodynamics, Particle physics, Equation of state, Discretization, High Energy Physics::Lattice, Transition temperature, High Energy Physics::Phenomenology, Lattice QCD, Supercomputer
Abstract

We summarize the latest results from performing Lattice QCD calculations with two different discretization schemes, asqtad and p4fat3, on the LLNL BG/L supercomputer, and present a plan for continued running to complete the calculation of the QCD transition temperature and equation of state.

Published
2007

8. LIGHT QUARK MESON CORRELATIONS AT HIGH TEMPERATURE

Author

S. Wissel, E. Laermann, S. Stickan, F. Karsch, I. Wetzorke, and Peter Petreczky

Subjects
Quark, Physics, Top quark, Particle physics, Meson, Eta meson, Lattice field theory, B meson, Bottom quark, Mass screening
Published
2005

9. LATTICE STUDIES OF QCD THERMODYNAMICS

Author

E. Laermann

Subjects
Physics, Quantum chromodynamics, Lattice (order), Non-equilibrium thermodynamics, Thermodynamics, Extended irreversible thermodynamics
Published
2003

10. Lattice QCD at finite temperature

Author

O. Philipsen and E. Laermann

Subjects
Physics, Quantum chromodynamics, Quark, Nuclear and High Energy Physics, Equation of state, Particle physics, quark-gluon plasma, High Energy Physics::Lattice, screening, High Energy Physics::Phenomenology, Lattice QCD, Plasma, masses, finite-density QCD, Lattice (module), Thermal, High Energy Physics::Experiment, equation of state, QCD phase diagram, Phase diagram
Abstract

The status of lattice QCD investigations at high temperature is reviewed. After a short introduction into thermal QCD on the lattice we report on the present understanding of the phase diagram and the equation of state, in particular in presence of dynamical quarks. We continue with a discussion of various screening lengths in the plasma phase including results from dimensionally reduced QCD. This is followed by summarizing lattice data on quark number susceptibilities and spectral densities, both of which are of immediate relevance to the interpretation of heavy ion experiments. A major section is devoted to presenting simulations of QCD at small yet phenomenologically important values for the baryon density.

Published
2003

11. NEW LATTICE RESULTS ON HIGH-<font>T</font> PHASE TRANSITIONS

Author

E. Laermann

Subjects
Physics, Quantum phase transition, Phase transition, Condensed matter physics, Lattice (order), Quantum critical point, Critical phenomena, Lattice QCD, Critical exponent, Lattice model (physics)
Published
2002

12. Hadronic Correlators and Symmetries

Author

Swagata Mukherjee, E. Laermann, S. Sharma, Hauke Sandmeyer, V. Dick, and F. Karsch

Subjects
Physics, Particle physics, Hadron, General Physics and Astronomy
Published
2014

13. Hadron masses in qQCD with Wilson fermions near the chiral limit

Author

M. Müller-Preussker, V.K. Mitrjushkin, A. Hoferichter, E. Laermann, and P. Schmidt

Subjects
Quark, Physics, Nuclear and High Energy Physics, Particle physics, High Energy Physics::Lattice, Hadron, High Energy Physics - Lattice (hep-lat), High Energy Physics::Phenomenology, Propagator, FOS: Physical sciences, Fermion, Lattice QCD, Atomic and Molecular Physics, and Optics, High Energy Physics - Lattice, Lattice (order), High Energy Physics::Experiment
Abstract

In quenched lattice QCD with standard Wilson fermions the quark propagator is computed very close to the chiral limit in the zero-temperature case. Starting from our experience with lattice QED we employ a modified statistical method in order to estimate reliably hadron masses., 8 (single column-) pages, contribution to LATTICE 97

Published
1997

14. Width and string tension of the flux tube in SU(2) lattice gauge theory at high temperature.

Author

S Chagdaa, E Galsandorj, E Laermann, and B Purev

Subjects
LATTICE gauge theories, QUANTUM chromodynamics, STRING tension, SIGNAL-to-noise ratio, GRAPHICS processing units
Abstract

We study the profiles of the flux tube between a static quark and an antiquark in quenched SU(2) lattice gauge theory at temperatures around the deconfinement phase transition. The physical width of the flux tube and the string tension have been determined from the transverse profiles and the potential, respectively. Exploiting the computational power of a GPU accelerator in our flux tube investigation, we achieve much higher statistics through which we can increase the signal to noise ratio of our observables in the simulation. This has allowed the investigation of larger lattices as well as larger separations between the quarks than in our previous work. The improved accuracy gives us better results for the width and the string tension. The physical width of the flux tube increases with the temperature up to around Tc while keeping its increasing dependence on the separation. The string tension results are compared for two different sizes of the lattice. As the lattice becomes larger and finer together with the improved precision, the temperature dependent string tension tends to have a smaller value than the previous one. [ABSTRACT FROM AUTHOR]

Published
2018
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15. Additional strange hadrons from QCD thermodynamics and strangeness freezeout in heavy ion collisions.

Author

Bazavov A, Ding HT, Hegde P, Kaczmarek O, Karsch F, Laermann E, Maezawa Y, Mukherjee S, Ohno H, Petreczky P, Schmidt C, Sharma S, Soeldner W, and Wagner M

Abstract

We compare lattice QCD results for appropriate combinations of net strangeness fluctuations and their correlations with net baryon number fluctuations with predictions from two hadron resonance gas (HRG) models having different strange hadron content. The conventionally used HRG model based on experimentally established strange hadrons fails to describe the lattice QCD results in the hadronic phase close to the QCD crossover. Supplementing the conventional HRG with additional, experimentally uncharted strange hadrons predicted by quark model calculations and observed in lattice QCD spectrum calculations leads to good descriptions of strange hadron thermodynamics below the QCD crossover. We show that the thermodynamic presence of these additional states gets imprinted in the yields of the ground-state strange hadrons leading to a systematic 5-8 MeV decrease of the chemical freeze-out temperatures of ground-state strange baryons.

Published
2014
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16. Strangeness at high temperatures: from hadrons to quarks.

Author

Bazavov A, Ding HT, Hegde P, Kaczmarek O, Karsch F, Laermann E, Maezawa Y, Mukherjee S, Ohno H, Petreczky P, Schmidt C, Sharma S, Soeldner W, and Wagner M

Abstract

Appropriate combinations of up to fourth order cumulants of net strangeness fluctuations and their correlations with net baryon number and electric charge fluctuations, obtained from lattice QCD calculations, have been used to probe the strangeness carrying degrees of freedom at high temperatures. For temperatures up to the chiral crossover, separate contributions of strange mesons and baryons can be well described by an uncorrelated gas of hadrons. Such a description breaks down in the chiral crossover region, suggesting that the deconfinement of strangeness takes place at the chiral crossover. On the other hand, the strangeness carrying degrees of freedom inside the quark gluon plasma can be described by a weakly interacting gas of quarks only for temperatures larger than twice the chiral crossover temperature. In the intermediate temperature window, these observables show considerably richer structures, indicative of the strongly interacting nature of the quark gluon plasma.

Published
2013
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17. Freeze-out conditions in heavy ion collisions from QCD thermodynamics.

Author

Bazavov A, Ding HT, Hegde P, Kaczmarek O, Karsch F, Laermann E, Mukherjee S, Petreczky P, Schmidt C, Smith D, Soeldner W, and Wagner M

Abstract

We present a determination of freeze-out conditions in heavy ion collisions based on ratios of cumulants of net electric charge fluctuations. These ratios can reliably be calculated in lattice QCD for a wide range of chemical potential values by using a next-to-leading order Taylor series expansion around the limit of vanishing baryon, electric charge and strangeness chemical potentials. From a computation of up to fourth order cumulants and charge correlations we first determine the strangeness and electric charge chemical potentials that characterize freeze-out conditions in a heavy ion collision and confirm that in the temperature range 150 MeV ≤ T ≤ 170 MeV the hadron resonance gas model provides good approximations for these parameters that agree with QCD calculations on the 5%-15% level. We then show that a comparison of lattice QCD results for ratios of up to third order cumulants of electric charge fluctuations with experimental results allows us to extract the freeze-out baryon chemical potential and the freeze-out temperature.

Published
2012
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