Physics letters. B, ISSN 0370-2693, 01/2016, Volume 752, Issue C, pp. 34 - 39

Topological charge susceptibility χt for pure gauge SU(3) theory at finite temperature is studied using anisotropic lattices. The over-improved stout-link...

Finite temperature | Topological charge | Topological cumulant | Topological susceptibility

Finite temperature | Topological charge | Topological cumulant | Topological susceptibility

Journal Article

Chemistry : a European journal, ISSN 0947-6539, 03/2014, Volume 20, Issue 11, pp. 3010 - 3013

Phenolic oxime and diethanolamine moieties have been combined into one organic framework, resulting in the formation of a novel ligand type that can be...

density functional calculations | molecular magnets | finite‐temperature Lanczos method | manganese | self‐assembly | self-assembly | finite-temperature Lanczos method | Physical Sciences | Chemistry | Chemistry, Multidisciplinary | Science & Technology | Oximes | Construction | Diethanolamines | Wheels | Ligands | Joining | Ferromagnetism | Manganese | Physics

density functional calculations | molecular magnets | finite‐temperature Lanczos method | manganese | self‐assembly | self-assembly | finite-temperature Lanczos method | Physical Sciences | Chemistry | Chemistry, Multidisciplinary | Science & Technology | Oximes | Construction | Diethanolamines | Wheels | Ligands | Joining | Ferromagnetism | Manganese | Physics

Journal Article

Journal of physics. Condensed matter, ISSN 1361-648X, 02/2017, Volume 29, Issue 4, pp. 043001 - 043001

The topical review describes the recent progress in the modeling of hybrid perovskites by molecular dynamics simulations. Hybrid perovskites and in particular...

interatomic force model | hybrid perovskites | finite temperature molecular dynamics | Physics, Condensed Matter | Physical Sciences | Physics | Science & Technology

interatomic force model | hybrid perovskites | finite temperature molecular dynamics | Physics, Condensed Matter | Physical Sciences | Physics | Science & Technology

Journal Article

Physics letters. B, ISSN 0370-2693, 12/2015, Volume 751, Issue C, pp. 559 - 564

We present the crossover line between the quark gluon plasma and the hadron gas phases for small real chemical potentials. First we determine the effect of...

Physical Sciences | Physics, Nuclear | Astronomy & Astrophysics | Physics, Particles & Fields | Physics | Science & Technology | Analysis | Quarks | High Energy Physics - Lattice | chiral [condensation] | susceptibility [quark] | Nuclear Theory | chiral [susceptibility] | flavor: 4 [quark] | plasma [quark gluon] | lattice field theory | finite temperature | curvature | Phenomenology | strangeness | High Energy Physics | continuum limit | Nuclear Experiment | heavy ion | gas [hadron] | staggered [quark] | numerical calculations | Nuclear and High Energy Physics | chemical [potential] | transition [temperature] | High Energy Physics - Phenomenology | lattice | critical phenomena [quantum chromodynamics]

Physical Sciences | Physics, Nuclear | Astronomy & Astrophysics | Physics, Particles & Fields | Physics | Science & Technology | Analysis | Quarks | High Energy Physics - Lattice | chiral [condensation] | susceptibility [quark] | Nuclear Theory | chiral [susceptibility] | flavor: 4 [quark] | plasma [quark gluon] | lattice field theory | finite temperature | curvature | Phenomenology | strangeness | High Energy Physics | continuum limit | Nuclear Experiment | heavy ion | gas [hadron] | staggered [quark] | numerical calculations | Nuclear and High Energy Physics | chemical [potential] | transition [temperature] | High Energy Physics - Phenomenology | lattice | critical phenomena [quantum chromodynamics]

Journal Article

Nuclear physics. A, ISSN 0375-9474, 11/2017, Volume 967, Issue C, pp. 728 - 731

We present results for the QCD Equation of State at non-zero chemical potentials corresponding to the conserved charges in QCD using Taylor expansion upto...

critical point | Quark-gluon plasma | Finite temperature and density Quantum Chromodynamics | NUCLEAR PHYSICS AND RADIATION PHYSICS

critical point | Quark-gluon plasma | Finite temperature and density Quantum Chromodynamics | NUCLEAR PHYSICS AND RADIATION PHYSICS

Journal Article

Computer physics communications, ISSN 0010-4655, 07/2015, Volume 192, Issue C, pp. 114 - 123

Smooth, highly accurate analytical representations of Fermi–Dirac (FD) integral combinations important in free-energy density functional calculations are...

Finite-temperature DFT | Non-interacting orbital-free free-energy | Gradient expansion | Exchange free-energy | DFT | Finite-temperature | Physical Sciences | Computer Science, Interdisciplinary Applications | Technology | Physics, Mathematical | Computer Science | Physics | Science & Technology | Specific gravity | Approximation | Integrals | Mathematical analysis | Inverse | Derivatives | Representations | Density | Free energy | Physics - Computational Physics

Finite-temperature DFT | Non-interacting orbital-free free-energy | Gradient expansion | Exchange free-energy | DFT | Finite-temperature | Physical Sciences | Computer Science, Interdisciplinary Applications | Technology | Physics, Mathematical | Computer Science | Physics | Science & Technology | Specific gravity | Approximation | Integrals | Mathematical analysis | Inverse | Derivatives | Representations | Density | Free energy | Physics - Computational Physics

Journal Article

Journal of physics. G, Nuclear and particle physics, ISSN 0954-3899, 03/2014, Volume 41, Issue 3

Journal Article

Physica A, ISSN 0378-4371, 03/2019, Volume 518, pp. 158 - 168

The semi-classical approach leading to the Thomas–Fermi (TF) model provides a simple universal thermodynamic description of the electronic cloud surrounding...

Thomas–Fermi model | Plasma | Finite temperature | Physics, Multidisciplinary | Physical Sciences | Physics | Science & Technology

Thomas–Fermi model | Plasma | Finite temperature | Physics, Multidisciplinary | Physical Sciences | Physics | Science & Technology

Journal Article

Physica A, ISSN 0378-4371, 04/2018, Volume 496, pp. 410 - 433

The exact analytical lattice results for the partition function of the free neutral scalar field in one spatial dimension in both the configuration and the...

Finite-temperature field theory | Quantum statistical mechanics | Thermodynamics | Physics, Multidisciplinary | Physical Sciences | Physics | Science & Technology

Finite-temperature field theory | Quantum statistical mechanics | Thermodynamics | Physics, Multidisciplinary | Physical Sciences | Physics | Science & Technology

Journal Article

Physics letters. B, ISSN 0370-2693, 11/2016, Volume 762, pp. 283 - 287

Lorentz and CPT symmetries are foundations for important processes in particle physics. Recent studies in Standard Model Extension (SME) at high energy...

Casimir effect | Finite temperature | Standard Model Extension | Physical Sciences | Physics, Nuclear | Astronomy & Astrophysics | Physics, Particles & Fields | Physics | Science & Technology | Nuclear and High Energy Physics

Casimir effect | Finite temperature | Standard Model Extension | Physical Sciences | Physics, Nuclear | Astronomy & Astrophysics | Physics, Particles & Fields | Physics | Science & Technology | Nuclear and High Energy Physics

Journal Article

Acta materialia, ISSN 1359-6454, 04/2013, Volume 61, Issue 7, pp. 2330 - 2338

Co-based superalloys in the Co–Al–W system exhibit coherent L12 Co3(Al,W) γ′ precipitates in an face-centered cubic Co γ matrix, analogous to Ni3Al in Ni-based...

Cobalt-base superalloys | Density functional theory | Phase stability | Point defects | Finite-temperature free energy | Physics - Materials Science

Cobalt-base superalloys | Density functional theory | Phase stability | Point defects | Finite-temperature free energy | Physics - Materials Science

Journal Article

Ceramics international, ISSN 0272-8842, 06/2019, Volume 45, Issue 8, pp. 10805 - 10809

HfC, TaC, and their solid solution ceramics have been identified as the best materials for ultrahigh-temperature ceramics. However, their temperature-dependent...

First principles | Ultrahigh-temperature ceramics | Solid solution | Finite temperature elastic properties | Materials Science | Materials Science, Ceramics | Technology | Science & Technology

First principles | Ultrahigh-temperature ceramics | Solid solution | Finite temperature elastic properties | Materials Science | Materials Science, Ceramics | Technology | Science & Technology

Journal Article

Physica A, ISSN 0378-4371, 11/2016, Volume 462, pp. 1261 - 1272

We consider two identical atoms, taken in the harmonic approximation, inside a spherical cavity filled with a field described by an infinite set of...

Time evolution | Finite-temperature | Entanglement | Physics, Multidisciplinary | Physical Sciences | Physics | Science & Technology

Time evolution | Finite-temperature | Entanglement | Physics, Multidisciplinary | Physical Sciences | Physics | Science & Technology

Journal Article