var plasma_entities = new Array( { id : "plasma_frequency", name : "Plasma frequency", dimension : "frequency", nspecies : 1, section : "waves", formula : "%s1.getPlasmaFrequency()", wikiLink : "Plasma_frequency" }, { id : "gyrofrequency", name : "Gyrofrequency", dimension : "frequency", nspecies : 1, section : "fundamental", formula : "%s1.getGyroFrequency(this.plasma.B)", wikiLink : "Gyrofrequency" }, { id : "mean_interparticle_distance", name : "Mean interparticle distance", dimension : "length", nspecies : 1, section : "fundamental", formula : "%s1.getMeanDistance()", wikiLink : "Mean_inter-particle_distance" }, { id : "debye_length", name : "Debye length", dimension : "length", nspecies : 1, section : "fundamental", formula : "%s1.getDebyeLength()", wikiLink : "Debye_length" }, { id : "full_debye_length", name : "Full Debye length", dimension : "length", nspecies : 1, section : "fundamental", formula : "this.plasma.getFullDebyeLength(%s1)", wikiLink : "Debye_length" }, { id : "gyroradius", name : "Gyroradius", dimension : "length", nspecies : 1, section : "fundamental", formula : "%s1.getGyroRadius(this.plasma.B)", wikiLink : "Gyroradius" }, { id : "distance_of_minimal_approach", name : "Distance of minimal approach", dimension : "length", nspecies : 1, section : "fundamental", formula : "%s1.getMinApproachDistance()" }, { id : "inertial_length", name : "Inertial length", dimension : "length", nspecies : 1, section : "waves", formula : "%s1.getInertialLength()", wikiLink : "Inertial_length" }, { id : "de_broglie_wavelength", name : "De Broglie wavelength", dimension : "length", nspecies : 1, section : "fundamental", formula : "%s1.getDeBroglieLength()", wikiLink : "DeBroglie_wavelength" }, { id : "thermal_velocity", name : "Thermal velocity", dimension : "velocity", nspecies : 1, section : "fundamental", formula : "%s1.getThermalVelocity()", wikiLink : "Thermal_velocity" }, { id : "alfven_velocity", name : "Alfven velocity", dimension : "velocity", nspecies : 0, section : "waves", formula : "this.plasma.getAlfvenVelocity(this.plasma.B)", wikiLink : "Alfven_velocity" }, { id : "coupling_parameter", name : "Coupling parameter", dimension : "none", nspecies : 1, section : "fundamental", formula : "%s1.getCoupling()" }, { id : "typical_debye_screening", name : "Typical Debye screening", dimension : "none", nspecies : 1, section : "spectroscopy", formula : "var r = %s1.getMeanDistance()/%s1.getDebyeLength(); \ (1 + r)*Math.exp(-r)" }, { id : "transition_energy", name : "Transition energy", dimension : "energy", nspecies : 0, section : "spectroscopy", formula : "this.plasma.getTransitionEnergy()" }, { id : "natural_linewidth", name : "Natural linewidth", dimension : "energy", nspecies : 0, section : "spectroscopy", formula : "this.plasma.getNaturalWidth()" }, { id : "Fine_structure", name : "Fine structure", dimension : "energy", nspecies : 0, section : "spectroscopy", formula : "this.plasma.getFineStructure()", wikiLink : "Fine_structure" }, { id : "doppler_fwhm", name : "Doppler FWHM", dimension : "energy", nspecies : 0, section : "spectroscopy", formula : "2*this.plasma.getDopplerHwhm()", wikiLink : "Doppler_broadening" }, { id : "zeeman_splitting", name : "Zeeman splitting", dimension : "energy", nspecies : 0, section : "spectroscopy", formula : "2*this.plasma.getZeemanSplitting()" }, { id : "total_stark_fwhm", name : "Total Stark FWHM", dimension : "energy", nspecies : 0, section : "spectroscopy", formula : "2*this.plasma.getStarkHwhm()" }, { id : "stark_fwhm", name : "Stark FWHM", dimension : "energy", nspecies : 1, prepos : "due to", section : "spectroscopy", formula : "2*this.plasma.getQsHwhm(%s1)*this.plasma.getStarkQuasistaticity(%s1)" }, { id : "qs_stark_fwhm", name : "QS Stark FWHM", dimension : "energy", nspecies : 1, prepos : "due to", section : "spectroscopy", formula : "2*this.plasma.getQsHwhm(%s1)" }, { id : "dynamic_stark_range", name : "Dynamic Stark range", dimension : "energy", nspecies : 1, section : "spectroscopy", formula : "this.plasma.getMicrofieldFrequency(%s1)" }, { id : "minimal_energy_distance", name : "Minimal energy distance", dimension : "energy", nspecies : 0, section : "spectroscopy", formula : "this.plasma.getMinEnergyDistance()" }, { id : "fermi_energy", name : "Fermi energy", dimension : "energy", nspecies : 0, section : "fundamental", formula : "this.plasma.getFermiEnergy()", wikiLink : "Fermi_energy" }, { id : "chemical_potential", name : "Chemical potential", dimension : "energy", nspecies : 1, section : "fundamental", formula : "%s1.getChemicalPotential()", wikiLink : "Chemical_potential" }, { id : "beta", name : "Beta", dimension : "none", nspecies : 0, section : "fundamental", formula : "this.plasma.getBeta()", wikiLink : "Beta_(plasma_physics)" }, { id : "stark_quasistaticity", name : "Stark quasistaticity", dimension : "none", nspecies : 1, section : "spectroscopy", formula : "this.plasma.getStarkQuasistaticity(%s1)" }, { id : "static_to_dynamic_stark_ratio", name : "Static/dynamic Stark ratio", dimension : "none", nspecies : 1, section : "spectroscopy", formula : "this.plasma.getStarkRatio(%s1)" }, { id : "transition_wavelength", name : "Transition wavelength", dimension : "length", nspecies : 0, section : "spectroscopy", formula : "pf.base.Bohr.c/this.plasma.getTransitionEnergy()*(2*Math.PI)" }, { id : "transition_frequency", name : "Transition frequency", dimension : "frequency", nspecies : 0, section : "spectroscopy", formula : "this.plasma.getTransitionEnergy()/(2*Math.PI)" }, { id : "holtsmark_field", name : "Holtsmark field", dimension : "efield", nspecies : 1, section : "spectroscopy", formula : "%s1.getHoltsmarkField()" }, { id : "microfield_frequency", name : "Microfield frequency", dimension : "frequency", nspecies : 1, section : "spectroscopy", formula : "this.plasma.getMicrofieldFrequency(%s1)" }, { id : "cyclotron_losses", name : "Cyclotron losses", dimension : "power_density", nspecies : 1, section : "radiation", formula : "%s1.getCyclotronLosses(this.plasma.B)", wikiLink : "Cyclotron_radiation" }, { id : "free-free_losses", name : "Free-free losses", dimension : "power_density", nspecies : 0, section : "radiation", formula : "this.plasma.getBremsstrahlungLosses()", wikiLink : "Bremsstrahlung" }, { id : "dree-free_spectral_density", name : "Free-free spectral density", dimension : "spectral_power_density", nspecies : 0, section : "radiation", formula : "this.plasma.getBremsstrahlungSpectralDensity()", wikiLink : "Bremsstrahlung" }, { id : "free-bound_losses", name : "Free-bound losses", dimension : "power_density", nspecies : 0, section : "radiation", formula : "this.plasma.getFreeBoundLosses()" }, { id : "free-bound_spectral_density", name : "Free-bound spectral density", dimension : "spectral_power_density", nspecies : 0, section : "radiation", formula : "this.plasma.getFreeBoundSpectralDensity()" }, { id : "bound-bound_losses", name : "Bound-bound losses", dimension : "power_density", nspecies : 0, section : "radiation", formula : "this.plasma.getBoundBoundLosses()" }, { id : "ideal_gas_pressure", name : "Ideal gas pressure", dimension : "pressure", nspecies : 1, section : "fundamental", formula : "%s1.getPressure()", wikiLink : "Ideal_gas" }, { id : "total_pressure", name : "Total pressure", dimension : "pressure", nspecies : 0, section : "fundamental", formula : "this.plasma.getPressure()" }, { id : "magnetic_field_pressure", name : "Magnetic field pressure", dimension : "pressure", nspecies : 0, section : "fundamental", formula : "this.plasma.getMagneticFieldPressure()", wikiLink : "Magnetic_pressure" }, { id : "coulomb_logarithm", name : "Coulomb logarithm", dimension : "none", nspecies : 2, section : "collisions", formula : "this.plasma.getCoulombLog(%s1, %s2)", wikiLink : "Coulomb_collision" }, { id : "relaxation_rate", name : "Relaxation rate", dimension : "frequency", nspecies : 2, section : "collisions", formula : "this.plasma.getRelaxationRate(%s1, %s2)" }, { id : "thomson_cross-section", name : "Thomson cross-section", dimension : "area", nspecies : 1, section : "collisions", formula : "%s1.getThomsonXsTotal()", wikiLink : "Thomson_cross_section" }, { id : "dreicer_field", name : "Dreicer field", dimension : "efield", nspecies : 0, section : "collisions", formula : "this.plasma.getDreicerField()" } );