Matches in DBpedia 2015-10 for { <http://dbpedia.org/resource/Fermi_energy> ?p ?o }
- Fermi_energy abstract "The Fermi energy is a concept in quantum mechanics usually referring to the energy difference between the highest and lowest occupied single-particle states in a quantum system of non-interacting fermions at absolute zero temperature.In a Fermi gas the lowest occupied state is taken to have zero kinetic energy, whereas in a metal the lowest occupied state is typically taken to mean the bottom of the conduction band.Confusingly, the term "Fermi energy" is often used to refer to a different but closely related concept, the Fermi level (also called electrochemical potential).There are a few key differences between the Fermi level and Fermi energy, at least as they are used in this article: The Fermi energy is only defined at absolute zero, while the Fermi level is defined for any temperature. The Fermi energy is an energy difference (usually corresponding to a kinetic energy), whereas the Fermi level is a total energy level including kinetic energy and potential energy. The Fermi energy can only be defined for non-interacting fermions (where the potential energy or band edge is a static, well defined quantity), whereas the Fermi level (the electrochemical potential of an electron) remains well defined even in complex interacting systems, at thermodynamic equilibrium.Since the Fermi level in a metal at absolute zero is the energy of the highest occupied single particle state,then the Fermi energy in a metal is the energy difference between the Fermi level and lowest occupied single-particle state, at zero-temperature.".
- Fermi_energy wikiPageExternalLink fermi.html.
- Fermi_energy wikiPageID "170165".
- Fermi_energy wikiPageLength "13651".
- Fermi_energy wikiPageOutDegree "53".
- Fermi_energy wikiPageRevisionID "674559401".
- Fermi_energy wikiPageWikiLink Absolute_zero.
- Fermi_energy wikiPageWikiLink Boltzmann_constant.
- Fermi_energy wikiPageWikiLink Category:Condensed_matter_physics.
- Fermi_energy wikiPageWikiLink Category:Fermi–Dirac_statistics.
- Fermi_energy wikiPageWikiLink Charge_radius.
- Fermi_energy wikiPageWikiLink Chemical_potential.
- Fermi_energy wikiPageWikiLink Conduction_band.
- Fermi_energy wikiPageWikiLink Degenerate_matter.
- Fermi_energy wikiPageWikiLink Electrochemical_potential.
- Fermi_energy wikiPageWikiLink Electron.
- Fermi_energy wikiPageWikiLink Electron_gas.
- Fermi_energy wikiPageWikiLink Electronvolt.
- Fermi_energy wikiPageWikiLink Energy.
- Fermi_energy wikiPageWikiLink Fermi_gas.
- Fermi_energy wikiPageWikiLink Fermi_level.
- Fermi_energy wikiPageWikiLink Fermi_surface.
- Fermi_energy wikiPageWikiLink Fermion.
- Fermi_energy wikiPageWikiLink Fermi–Dirac_statistics.
- Fermi_energy wikiPageWikiLink Free_electron_model.
- Fermi_energy wikiPageWikiLink Gravitational_collapse.
- Fermi_energy wikiPageWikiLink Ground_state.
- Fermi_energy wikiPageWikiLink Group_velocity.
- Fermi_energy wikiPageWikiLink Helium.
- Fermi_energy wikiPageWikiLink Infinite_square_well.
- Fermi_energy wikiPageWikiLink Internal_chemical_potential.
- Fermi_energy wikiPageWikiLink Isotropic.
- Fermi_energy wikiPageWikiLink Isotropy.
- Fermi_energy wikiPageWikiLink Kinetic_energy.
- Fermi_energy wikiPageWikiLink MeV.
- Fermi_energy wikiPageWikiLink Momentum.
- Fermi_energy wikiPageWikiLink Neutron.
- Fermi_energy wikiPageWikiLink Nuclear_physics.
- Fermi_energy wikiPageWikiLink Nuclear_size.
- Fermi_energy wikiPageWikiLink Nucleon.
- Fermi_energy wikiPageWikiLink Nucleons.
- Fermi_energy wikiPageWikiLink Particle_in_a_box.
- Fermi_energy wikiPageWikiLink Particle_number.
- Fermi_energy wikiPageWikiLink Particle_number_density.
- Fermi_energy wikiPageWikiLink Pauli_exclusion_principle.
- Fermi_energy wikiPageWikiLink Proton.
- Fermi_energy wikiPageWikiLink Quantum_mechanics.
- Fermi_energy wikiPageWikiLink Quantum_state.
- Fermi_energy wikiPageWikiLink Solid-state_physics.
- Fermi_energy wikiPageWikiLink Solid_state_physics.
- Fermi_energy wikiPageWikiLink Spin-½.
- Fermi_energy wikiPageWikiLink 2.
- Fermi_energy wikiPageWikiLink Stationary_state.
- Fermi_energy wikiPageWikiLink Sun.
- Fermi_energy wikiPageWikiLink Superfluid.
- Fermi_energy wikiPageWikiLink Superfluidity.
- Fermi_energy wikiPageWikiLink Temperature.
- Fermi_energy wikiPageWikiLink Valence_and_conduction_bands.
- Fermi_energy wikiPageWikiLink White_dwarf.
- Fermi_energy wikiPageWikiLink White_dwarfs.
- Fermi_energy wikiPageWikiLink File:Fermi_energy_momentum.svg.
- Fermi_energy wikiPageWikiLinkText "Fermi ''energy''".
- Fermi_energy wikiPageWikiLinkText "Fermi boiling point".
- Fermi_energy wikiPageWikiLinkText "Fermi energies".
- Fermi_energy wikiPageWikiLinkText "Fermi energy".
- Fermi_energy wikiPageWikiLinkText "Fermi melting point".
- Fermi_energy wikiPageWikiLinkText "Fermi sphere".
- Fermi_energy wikiPageWikiLinkText "Fermi temperature".
- Fermi_energy wikiPageWikiLinkText "Fermi velocity".
- Fermi_energy wikiPageWikiLinkText "Fermi wavevector".
- Fermi_energy wikiPageWikiLinkText "estimated".
- Fermi_energy wikiPageWikiLinkText "fermi energy".
- Fermi_energy hasPhotoCollection Fermi_energy.
- Fermi_energy wikiPageUsesTemplate Template:Cite_book.
- Fermi_energy wikiPageUsesTemplate Template:Distinguish.
- Fermi_energy wikiPageUsesTemplate Template:Reflist.
- Fermi_energy subject Category:Condensed_matter_physics.
- Fermi_energy subject Category:Fermi–Dirac_statistics.
- Fermi_energy hypernym Concept.
- Fermi_energy type Physic.
- Fermi_energy type Thing.
- Fermi_energy comment "The Fermi energy is a concept in quantum mechanics usually referring to the energy difference between the highest and lowest occupied single-particle states in a quantum system of non-interacting fermions at absolute zero temperature.In a Fermi gas the lowest occupied state is taken to have zero kinetic energy, whereas in a metal the lowest occupied state is typically taken to mean the bottom of the conduction band.Confusingly, the term "Fermi energy" is often used to refer to a different but closely related concept, the Fermi level (also called electrochemical potential).There are a few key differences between the Fermi level and Fermi energy, at least as they are used in this article: The Fermi energy is only defined at absolute zero, while the Fermi level is defined for any temperature. ".
- Fermi_energy label "Fermi energy".
- Fermi_energy differentFrom Fermi_level.
- Fermi_energy sameAs طاقة_فيرمي.
- Fermi_energy sameAs Energia_de_Fermi.
- Fermi_energy sameAs Fermienergie.
- Fermi_energy sameAs Energía_de_Fermi.
- Fermi_energy sameAs انرژی_فرمی.
- Fermi_energy sameAs Fermienergia.
- Fermi_energy sameAs Énergie_de_Fermi.
- Fermi_energy sameAs אנרגיית_פרמי.
- Fermi_energy sameAs Fermiorkustig.
- Fermi_energy sameAs Energia_di_Fermi.
- Fermi_energy sameAs フェルミエネルギー.
- Fermi_energy sameAs Poziom_Fermiego.
- Fermi_energy sameAs Energia_de_Fermi.
- Fermi_energy sameAs m.016tg2.
- Fermi_energy sameAs Энергия_Ферми.
- Fermi_energy sameAs Fermienergi.