Keywords: 51.30 + I; Statistical theory of condensation; Gibbs statistics; Equation of state; Cluster expansion; Cluster irreducible integral; Lennard-Jones potential; 05.20.-y; 05.20.Jj; 05.50.+q; 05.70.Ce; 05.70.Fh; 51.30.+i; 64.10.+h; 64.60.-i; 64.60.De; 64.70.F-;
مقالات ISI 51.30 + I (ترجمه نشده)
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Combined equation of liquid and gas states, including classical and scaling parts
Keywords: 51.30 + I; 05.70.Ce; 51.30.+i; 64.10.+h; 05.70.Jk; Critical state; Equation of state; Vapour-liquid equilibria;
Theoretical study of the properties of PtN2 with pyrite and marcasite structures
Keywords: 51.30 + I; 51.30.+i; 65.40.Ba; 62.20.Dc; 71.15.DxC. Pyrite and marcasite structures; D. Debye temperature; D. Heat capacity
An outlook of heavy ion driven plasma research at IMP-Lanzhou
Keywords: 51.30 + I; 51.30.+i; 52.20.−j; 52.25.Fi; 52.57.−z; 52.58.Hm; 52.29.−fPlasma; HED physics; Heavy ion fusion
Heat conduction in multi-temperature mixtures of fluids: the role of the average temperature
Keywords: 51.30 + I; 51.30.+i; 47.51.+a; Mixture of compressible fluids; Multi-temperature in plasma physics; Heat conduction; Non-equilibrium thermodynamics;
The relativistic virial theorem in plasma EOS calculations
Keywords: 51.30 + I; 52.25.Kn; 51.30.+I; 05.70.Ce; 64.10.+h; Plasma equation of state; Opacity; Relativistic virial theorem;
Molecular dynamics simulation of the pressure–volume–temperature data of xenon for a nuclear fuel
Keywords: 51.30 + I; 31.15.Qg; 51.30.+i
Temperature in molybdenum at high shock pressure: Experiment and theory
Keywords: 51.30 + I; 47.80.Fg; 05.70.Ce; 51.30.+i; 82.40.FpHigh pressure; Shock temperature; Pyrometry experiment; Molybdenum
Point defect chemistry of YBa2Cu3O6.5+δ
Keywords: 51.30 + I; 81.70.Pg; 82.60.Hc; 51.30.+i; A. Oxides; A. Superconductors; B. Chemical synthesis; D. Defects;
Ab initio study of the formation and degradation reactions of semiquinone and phenoxyl radicals
Keywords: 51.30 + I; 31.15.Ar; 51.30.+i; Ab initio; Quinone; Free radical;
Warm-dense-matter studies using pulse-power discharges in water
Keywords: 51.30 + I; 51.30.+i; 52.27.Gr; 52.35.Tc; 52.80.QjWarm dense matter; Equation of state; Shock wave; Exploding wire
Diagnostics for near-term warm dense matter experiments
Keywords: 51.30 + I; 51.30.+i; 52.50.Gj; 52.59.Sa; 52.70.−mInertial fusion energy; Ion beam; Diagnostics; Warm dense matter
Quantum boundary layer: a non-uniform density distribution of an ideal gas in thermodynamic equilibrium
Keywords: 51.30 + I; 05.70.-a; 05.90.+m; 51.30.+i; 68.65.-kQuantum size effects; Boundary layer; Ideal gas; Thermodynamics
First-principles calculations of thermodynamic properties of TiB2 at high pressure
Keywords: 51.30 + I; 64.30.+t; 51.30.+I; 71.15.Mb; 91.60.−xEquations of state; Thermodynamic properties; Generalized gradient approximation; TiB2
Equation-of-state model for shock compression of hot dense matter
Keywords: 51.30 + I; 31.15.Ar; 31.15.Bs; 51.30.+i; 62.50.+pEquation of state; Hugoniot shock adiabat; Quantum shell effects; Ionization
Inertial fusion energy issues of intense heavy ion and laser beams interacting with ionized matter studied at GSI-Darmstadt
Keywords: 51.30 + I; 51.30.+i; 52.20.−j; 52.25.Fi; 52.57.−z; 52.58.Hm; 52.29.−fDense plasma; Energy loss; Inertial fusion
Recent progress in the EOSTA model
Keywords: 51.30 + I; 52.25.Kn; 51.30.+i; 05.70.Ce; 64.10.+h; Equation of state; EOS; Plasma; Plasma EOS; Opacity; Hot and dense matter; STA; INFERNO; Viral theorem;
Gas-phase reaction thermodynamics in preparation of pyrolytic carbon by propylene pyrolysis
Keywords: 51.30 + I; 31.15.Ar; 31.15.Ew; 51.30.+i; 81.05.Je; 81.15.Gh; 82.30.LpPropylene pyrolysis; Gas-phase reaction; Thermodynamic; Pyrolytic carbon
First-principles calculations of elastic constants of c-BN
Keywords: 51.30 + I; 62.20.Dc; 71.15.Mb; 51.30.+i; 71.20.Nr; Elastic constants; Local density approximation; Debye temperature; Thermal expansion coefficients; c-BN;
NF3+N=NF2+NF rate constant calculated using TST with simple tunneling correction
Keywords: 51.30 + I; 82.20.Pm; 82.20.Db; 82.20.Wt; 82.30.Hk; 82.30.Lp; 51.30.+i; 82.60.-s; Kinetics; Thermal rate constants; Conventional transition state theory; Direct dynamics; gaussian 98;
Transition phase and thermodynamic properties of GaN via first-principles calculations
Keywords: 51.30 + I; 64.70.Kb; 51.30.+i; A. GaN; D. Thermodynamic properties; D. Transition phase;
Synthesis mechanism of lithium nickel oxide using hydrothermal-electrochemical method: Thermodynamic modelling and experimental verification
Keywords: 51.30 + I; 12.38.Qk; 51.30.+i; 82.45.Aa; Lithium ion battery; Lithium nickel oxide; Potential-pOH diagram; Thermodynamic stability;
Thermodynamic properties of MgO under high pressure from first-principles calculations
Keywords: 51.30 + I; 64.30.+t; 51.30.+I; 71.15.Mb; 91.60.âx; Equations of state; Thermodynamic properties; Generalized gradient approximation; MgO;
AlN thin films fabricated by ultra-high vacuum electron-beam evaporation with ammonia for silicon-on-insulator application
Keywords: 51.30 + I; 81.15.Ef; 77.55.+f; 51.30.+I; AlN thin film; Silicon-on-insulator (SOI); High vacuum electron-beam evaporation;
Studies of heavy ion-induced high-energy density states in matter at the GSI Darmstadt SIS-18 and future FAIR facility
Keywords: 51.30 + I; 51.30.+i; 52.40.Mj; 52.50.Lp; Intense heavy ion beams; High-energy density matter; Equation-of-state; Strongly coupled plasmas; Planetary science;
Debye-Hückel theory for two-dimensional Coulomb systems living on a finite surface without boundaries
Keywords: 51.30 + I; 05.20.ây; 05.20.Jj; 51.30.+i; Two-dimensional Coulomb gas; Debye-Hückel theory; Sphere;
A new statistical mechanical formalism for gases
Keywords: 51.30 + I; 02.50.-r; 05.20.Jj; 51.30.+i; Equilibrium gases; Thermodynamic properties; Spatial Statistics; Hard particles; Hydrogen fluid;