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相关论文: QCD Level Density from Maximum Entropy Method

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We make remarks on the Maximum Entropy Method (MEM) for studies of the spectral function of hadronic correlators in finite temperature lattice QCD. We discuss the virtues and subtlety of MEM in the cases that one does not have enough number…

高能物理 - 格点 · 物理学 2007-05-23 Takashi Umeda , Hideo Matsufuru

We study various aspects of extracting spectral information from time correlation functions of lattice QCD by means of Bayesian inference with an entropic prior, the maximum entropy method (MEM). Correlator functions of a heavy-light…

高能物理 - 格点 · 物理学 2009-11-07 H. Rudolf Fiebig

First principle calculation of the QCD spectral functions (SPFs) based on the lattice QCD simulations is reviewed. Special emphasis is placed on the Bayesian inference theory and the Maximum Entropy Method (MEM), which is a useful tool to…

高能物理 - 格点 · 物理学 2009-10-31 M. Asakawa , T. Hatsuda , Y. Nakahara

We present preliminary results from the first attempt to reconstruct the spectral function in the nucleon and $\Delta$ channels from lattice QCD data using the maximum entropy method (MEM). An advantage of the MEM analysis is to enable us…

高能物理 - 格点 · 物理学 2009-11-07 S. Sasaki , K. Sasaki , T. Hatsuda , M. Asakawa

The sign problem is notorious in Monte Carlo simulations of lattice QCD with the finite density, lattice field theory (LFT) with a $\theta$ term and quantum spin models. In this report, to deal with the sign problem, we apply the maximum…

高能物理 - 格点 · 物理学 2016-09-01 Masahiro Imachi , Yasuhiko Shinno , Hiroshi Yoneyama

In Monte Carlo simulation, lattice field theory with a $\theta$ term suffers from the sign problem. This problem can be circumvented by Fourier-transforming the topological charge distribution $P(Q)$. Although this strategy works well for…

高能物理 - 格点 · 物理学 2016-09-01 M. Imachi , Y. Shinno , H. Yoneyama

We utilize lattice simulations of the dimensionally reduced effective field theory (EQCD) to determine the quark number susceptibility of QCD at high temperature ($T>2T_c$). We also use analytic continuation to obtain results at finite…

高能物理 - 格点 · 物理学 2008-11-26 Ari Hietanen , Kari Rummukainen

Recently, we proposed a novel method to define and calculate the energy-momentum tensor (EMT) in lattice gauge theory on the basis of the Yang-Mills gradient flow [1]. In this proceedings, we summarize the basic idea and technical steps to…

高能物理 - 格点 · 物理学 2015-11-11 Etsuko Itou , Hiroshi Suzuki , Yusuke Taniguchi , Takashi Umeda

A recent Letter~\cite{Borsanyi:2025dyp} employs lattice QCD calculations of the equation of state, combined with entropy-density contour analysis, to place a lower bound of $\mu_B \gtrsim 450$~MeV on the location of the QCD critical…

高能物理 - 格点 · 物理学 2026-04-01 Roy A. Lacey

In Monte Carlo simulations of lattice field theory with a $\theta$ term, one confronts the complex weight problem, or the sign problem. This is circumvented by performing the Fourier transform of the topological charge distribution $P(Q)$.…

高能物理 - 格点 · 物理学 2017-02-01 Masahiro Imachi , Yasuhiko Shinno , Hiroshi Yoneyama

To obtain the precise values of the bulk quantities and transport coefficients in quark-gluon-plasma phase, we propose that a direct calculation of the renormalized energy-momentum tensor (EMT) on the lattice using the gradient flow. From…

高能物理 - 格点 · 物理学 2017-03-21 Etsuko Itou , Sinya Aoki

Self-consistent approximations in terms of fully dressed propagators provide a simple expression for the entropy of an ultrarelativistic plasma, which isolates the contribution of the elementary excitations as a leading contribution.…

高能物理 - 唯象学 · 物理学 2009-10-31 J. -P. Blaizot , E. Iancu , A. Rebhan

We present the non-perturbative computation of the entropy density in QCD for temperatures ranging from 3 GeV up to the electro-weak scale, using $N_f=3$ flavours of massless O$(a)$-improved Wilson fermions. We adopt a new strategy designed…

高能物理 - 格点 · 物理学 2025-02-07 Matteo Bresciani , Mattia Dalla Brida , Leonardo Giusti , Michele Pepe

It is shown how to apply the Maximum Entropy Method (MEM) to numerical Dyson-Schwinger studies for the extraction of spectral functions of correlators from their corresponding Euclidean propagators. Differences to the application in lattice…

高能物理 - 唯象学 · 物理学 2008-11-26 Dominik Nickel

We study the sign problem in lattice field theory with a $\theta$ term. We apply the maximum entropy method (MEM) to flattening phenomenon of the free energy density $f(\theta)$, which originates from the sign problem. In our previous…

高能物理 - 格点 · 物理学 2009-09-29 Masahiro Imachi , Yasuhiko Shinno , Hiroshi Yoneyama

A method for making realistic estimates of the density of levels in even-even nuclei is presented making use of the Monte Carlo shell model (MCSM). The procedure follows three basic steps: (1) computation of the thermal energy with the…

核理论 · 物理学 2009-10-30 W. E. Ormand

The QCD equation of state at finite baryon density is studied in the framework of a Cluster Expansion Model (CEM), which is based on the fugacity expansion of the net baryon density. The CEM uses the two leading Fourier coefficients,…

高能物理 - 格点 · 物理学 2019-02-20 V. Vovchenko , J. Steinheimer , O. Philipsen , A. Pasztor , Z. Fodor , S. D. Katz , H. Stoecker

We study the phase structure of QCD at finite temperature and density by numerical simulations on a lattice. The most important point for the numerical study at finite density is treatment of the sign problem. We propose a method to avoid…

高能物理 - 格点 · 物理学 2011-03-10 Shinji Ejiri

We present a Maximum Entropy method (MEM) for obtaining dynamical spectra from Quantum Monte Carlo data which have a sign problem. By relating the sign fluctuations to the norm of the spectra, our method properly treats the correlations…

统计力学 · 物理学 2007-05-23 A. Macridin , S. P. Doluweera , M. Jarrell , Th. Maier

We present a method to derive an upper bound for the entropy density of coupled map lattices with local interactions from local observations. To do this, we use an embedding technique being a combination of time delay and spatial embedding.…

混沌动力学 · 物理学 2009-10-31 Eckehard Olbrich , Rainer Hegger , Holger Kantz
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