About: Gauge fixing

Property	Value
dbo:abstract	In the physics of gauge theories, gauge fixing (also called choosing a gauge) denotes a mathematical procedure for coping with redundant degrees of freedom in field variables. By definition, a gauge theory represents each physically distinct configuration of the system as an equivalence class of detailed local field configurations. Any two detailed configurations in the same equivalence class are related by a gauge transformation, equivalent to a shear along unphysical axes in configuration space. Most of the quantitative physical predictions of a gauge theory can only be obtained under a coherent prescription for suppressing or ignoring these unphysical degrees of freedom. Although the unphysical axes in the space of detailed configurations are a fundamental property of the physical model, there is no special set of directions "perpendicular" to them. Hence there is an enormous amount of freedom involved in taking a "cross section" representing each physical configuration by a particular detailed configuration (or even a weighted distribution of them). Judicious gauge fixing can simplify calculations immensely, but becomes progressively harder as the physical model becomes more realistic; its application to quantum field theory is fraught with complications related to renormalization, especially when the computation is continued to higher orders. Historically, the search for logically consistent and computationally tractable gauge fixing procedures, and efforts to demonstrate their equivalence in the face of a bewildering variety of technical difficulties, has been a major driver of mathematical physics from the late nineteenth century to the present. (en) Na física de teorias de gauge, fixação de gauge ou fixação de calibre (também chamada escolha de um gauge) denota um procedimento matemático para a cópia com graus de liberdade redundantes em campos variáveis. Por definição, uma teoria de gauge representa fisicamente cada configuração distinta do sistema como uma classe equivalente de configurações de detalhadas. Qualquer duas configurações detalhadas na mesma classe equivalente são relacionadas por uma transformação de gauge, equivalente a uma transformação de simetria ao longo dos eixos geométricos (não físicos) no espaço de configuração. A maioria das predições físicas quantitativas de uma teoria de gauge podem somente ser obtidas sob uma coerente supressão ou ignorando estes graus de liberdade não físicos. Embora os eixos não físicos no espaço de configurações detalhadas sejam uma propriedade fundamental do modelo físico, não existe um conjunto especial de direções "perpendiculares" a eles. Desde que existe uma enorme quantidade de liberdade envolvida na tomada de uma "seção transversal" representando cada configuração física por uma configuração detalhada particular (ou mesmo de uma distribuição ponderada delas). Arbitrárias fixações de gauge podem simplificar cálculos imensamente, mas tornam-se progressivamente mais difíceis à medida que o modelo se torna mais realista; sua aplicação na teoria quântica de campos é trabalhosa com complicações relacionadas à renormalização, especialmente quando a computação é continuada a mais altas ordens. Historicamente, a busca por procedimentos de fixação de gauge logicamente consistentes e tratáveis computacionalmente, e esforços para demonstrar sua equivalência em face de uma confusa variedade de dificuldades técnicas, tem sido um principal condutor da física matemática do século XIX ao presente. (pt) Калибро́вка ве́кторного потенциа́ла — наложение дополнительных условий, позволяющих однозначно вычислить векторный потенциал электромагнитного поля при решении тех или иных физических задач. Налагаемые условия являются искусственными и служат для упрощения математических выкладок. Наиболее широкое распространение получили калибровка Кулона и калибровка Лоренца, но существуют и применяются и другие калибровки. (ru) 库仑规范（Coulomb gauge）是一种横场条件，定义为。标量势φ和矢量势A对电磁场的确定不是唯一的，有可能对它们引进适当的限制条件。在库仑规范下，时变电磁场情形下，标量势φ由方程确定。这是瞬时的库仑势方程，库仑规范的名称由此而得。在推导磁矢势时候可以借助来得到。 (zh) Калібрува́ння ве́кторного потенціа́лу — накладення додаткових умов, що дозволяють однозначно обчислити векторний потенціал електромагнітного поля під час розв'язування тих чи інших фізичних задач. Накладені умови є штучними і покликані спростити математичні перетворення. Найбільшого поширення набули калібрування Кулона та калібрування Лоренца, але існують і застосовуються й інші калібрування. (uk)
dbo:thumbnail	wiki-commons:Special:FilePath/Gauge.png?width=300
dbo:wikiPageID	2000736 (xsd:integer)
dbo:wikiPageInterLanguageLink	dbpedia-pl:Cechowanie_(fizyka)
dbo:wikiPageLength	28122 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID	1114324842 (xsd:integer)
dbo:wikiPageWikiLink	dbr:Quantum_chemistry dbr:Quantum_electrodynamics dbr:Quantum_field_theory dbr:Electric_potential dbr:Electromagnetic_four-potential dbr:Degrees_of_freedom_(physics_and_chemistry) dbc:Quantum_electrodynamics dbr:Josiah_Willard_Gibbs dbr:Julian_Schwinger dbr:Paul_Dirac dbr:Renormalization dbr:Richard_Feynman dbr:Vladimir_Fock dbr:Light-cone_coordinates dbr:Light_cone dbr:List_of_integration_and_measure_theory_topics dbr:Quantum_field_theories dbr:BRST_formalism dbc:Gauge_theories dbc:Quantum_field_theory dbr:Continuity_equation dbr:Maxwell's_equations dbr:SU(2) dbr:SU(3) dbr:Gauge_theory dbr:Gell-Mann_matrices dbr:Non-abelian_gauge_theory dbr:Yang–Mills_theory dbr:Electric_field dbr:Electrodynamics dbr:Electromagnetic_radiation dbr:Freeman_Dyson dbr:Gaussian_units dbr:General_relativity dbr:George_Francis_FitzGerald dbr:Goldstone_boson dbr:Minkowski_metric dbr:Condensed_matter_physics dbr:Equivalence_class dbr:Lorentz_invariance dbr:Lorentz_transformation dbr:Ludvig_Lorenz dbr:Magnetic_field dbr:Magnetic_vector_potential dbr:Helmholtz_decomposition dbr:Gauge_transformation dbr:Physics dbr:Mathematical_physics dbr:Causality dbr:Aharonov–Bohm_effect dbr:Wave_equation dbr:File:Gauge.png dbr:Line_integral dbr:Linear_polarization dbr:Ward–Takahashi_identity dbr:Feynman_diagram dbr:Nobel_Prize_in_Physics dbr:Normalizing_constant dbr:Four-current dbr:Frame_bundle dbr:Quantum_chromodynamics dbr:Quantization_(physics) dbr:Gribov_ambiguity dbr:Hendrik_Lorentz dbr:Henri_Poincaré dbr:Hermann_Weyl dbr:International_System_of_Units dbr:Jacobian_matrix_and_determinant dbc:Electromagnetism dbr:Lagrangian_density dbr:Auxiliary_field dbr:Polarization_(waves) dbr:Field_(physics) dbr:Klein–Gordon_equation dbr:Oliver_Heaviside dbr:Change_of_variables dbr:Sin-Itiro_Tomonaga dbr:Faddeev–Popov_ghost dbr:Ghost_(physics) dbr:Virtual_photon dbr:Spin–statistics_theorem dbr:Anomalous_magnetic_moment dbr:Perturbative_expansion dbr:SI dbr:Ward_identities dbr:Feynman_rules dbr:Functional_integral dbr:One-loop_order dbr:Symmetry_transformation dbr:Circularly_polarized dbr:Gauge_field dbr:Action_principle dbr:4-gradient dbr:Pauli_matrix dbr:Position_four-vector dbr:Lorentz_gauge_condition dbr:Extremum dbr:Logically_consistent dbr:U(1) dbr:Functional_measure dbr:Asymptotic_state dbr:Asymptotic_states dbr:Maximal_Abelian_subgroup dbr:Nakanishi–Lautrup_field dbr:Photon_propagator dbr:Spin_sum
dbp:wikiPageUsesTemplate	dbt:Electromagnetism dbt:Citation_needed dbt:Cite_book dbt:Math dbt:NumBlk dbt:Ordered_list dbt:Reflist dbt:See_also dbt:Short_description dbt:EquationRef dbt:QED dbt:Quantum_field_theory dbt:EquationNote
dcterms:subject	dbc:Quantum_electrodynamics dbc:Gauge_theories dbc:Quantum_field_theory dbc:Electromagnetism
rdf:type	owl:Thing yago:Abstraction100002137 yago:Cognition100023271 yago:Explanation105793000 yago:HigherCognitiveProcess105770664 yago:Process105701363 yago:PsychologicalFeature100023100 yago:WikicatGaugeTheories yago:Theory105989479 yago:Thinking105770926
rdfs:comment	Калибро́вка ве́кторного потенциа́ла — наложение дополнительных условий, позволяющих однозначно вычислить векторный потенциал электромагнитного поля при решении тех или иных физических задач. Налагаемые условия являются искусственными и служат для упрощения математических выкладок. Наиболее широкое распространение получили калибровка Кулона и калибровка Лоренца, но существуют и применяются и другие калибровки. (ru) 库仑规范（Coulomb gauge）是一种横场条件，定义为。标量势φ和矢量势A对电磁场的确定不是唯一的，有可能对它们引进适当的限制条件。在库仑规范下，时变电磁场情形下，标量势φ由方程确定。这是瞬时的库仑势方程，库仑规范的名称由此而得。在推导磁矢势时候可以借助来得到。 (zh) Калібрува́ння ве́кторного потенціа́лу — накладення додаткових умов, що дозволяють однозначно обчислити векторний потенціал електромагнітного поля під час розв'язування тих чи інших фізичних задач. Накладені умови є штучними і покликані спростити математичні перетворення. Найбільшого поширення набули калібрування Кулона та калібрування Лоренца, але існують і застосовуються й інші калібрування. (uk) In the physics of gauge theories, gauge fixing (also called choosing a gauge) denotes a mathematical procedure for coping with redundant degrees of freedom in field variables. By definition, a gauge theory represents each physically distinct configuration of the system as an equivalence class of detailed local field configurations. Any two detailed configurations in the same equivalence class are related by a gauge transformation, equivalent to a shear along unphysical axes in configuration space. Most of the quantitative physical predictions of a gauge theory can only be obtained under a coherent prescription for suppressing or ignoring these unphysical degrees of freedom. (en) Na física de teorias de gauge, fixação de gauge ou fixação de calibre (também chamada escolha de um gauge) denota um procedimento matemático para a cópia com graus de liberdade redundantes em campos variáveis. Por definição, uma teoria de gauge representa fisicamente cada configuração distinta do sistema como uma classe equivalente de configurações de detalhadas. Qualquer duas configurações detalhadas na mesma classe equivalente são relacionadas por uma transformação de gauge, equivalente a uma transformação de simetria ao longo dos eixos geométricos (não físicos) no espaço de configuração. A maioria das predições físicas quantitativas de uma teoria de gauge podem somente ser obtidas sob uma coerente supressão ou ignorando estes graus de liberdade não físicos. (pt)
rdfs:label	Gauge fixing (en) Fixação de gauge (pt) Калибровка векторного потенциала (ru) 規範固定 (zh) Калібрування векторного потенціалу (uk)
rdfs:seeAlso	dbr:Covariant_formulation_of_classical_electromagnetism
owl:sameAs	freebase:Gauge fixing yago-res:Gauge fixing wikidata:Gauge fixing dbpedia-fa:Gauge fixing dbpedia-hu:Gauge fixing dbpedia-pt:Gauge fixing dbpedia-ru:Gauge fixing dbpedia-uk:Gauge fixing dbpedia-zh:Gauge fixing https://global.dbpedia.org/id/4zGEX dbr:Gauge fixing
prov:wasDerivedFrom	wikipedia-en:Gauge_fixing?oldid=1114324842&ns=0
foaf:depiction	wiki-commons:Special:FilePath/Gauge.png
foaf:isPrimaryTopicOf	wikipedia-en:Gauge_fixing
is dbo:wikiPageDisambiguates of	dbr:Gauge
is dbo:wikiPageRedirects of	dbr:Poincaré_gauge dbr:Ks_gauge dbr:Fock-Schwinger_gauge dbr:Maximum_Abelian_gauge dbr:Temporal_gauge dbr:Ξ_gauge dbr:Landau_gauge dbr:Radiation_gauge dbr:Coulomb_Gauge dbr:Coulomb_gauge dbr:Dirac_gauge dbr:Gauge-fixed dbr:Gauge-fixing dbr:Gauge_freedom dbr:Fock–Schwinger_gauge dbr:Feynman_gauge dbr:Weyl_gauge
is dbo:wikiPageWikiLink of	dbr:Propagator dbr:Quantum_field_theory dbr:Poincaré_gauge dbr:Josiah_Willard_Gibbs dbr:Voltage dbr:Index_of_physics_articles_(G) dbr:Index_of_radiation_articles dbr:Inhomogeneous_electromagnetic_wave_equation dbr:Introduction_to_gauge_theory dbr:Maxwell's_equations dbr:Elitzur's_theorem dbr:Gauge_principle dbr:Gauge_theory dbr:Ks_gauge dbr:Classical_field_theory dbr:Einstein_field_equations dbr:General_relativity dbr:Coordinate_conditions dbr:Lunar_Laser_Ranging_experiment dbr:Magnetic_field dbr:Magnetic_vector_potential dbr:Mathematical_descriptions_of_the_electromagnetic_field dbr:Aharonov–Bohm_effect dbr:Large_gauge_transformation dbr:Lattice_field_theory dbr:Liénard–Wiechert_potential dbr:London_equations dbr:Ward–Takahashi_identity dbr:First_class_constraint dbr:Fock-Schwinger_gauge dbr:Four-vector dbr:History_of_the_philosophy_of_field_theory dbr:Gauge dbr:Numerical_relativity dbr:Proca_action dbr:Vector_potential dbr:Gribov_ambiguity dbr:Hamiltonian_mechanics dbr:Henri_Poincaré dbr:Higgs_boson dbr:Asymptotic_safety_in_quantum_gravity dbr:BRST_quantization dbr:Covariant_formulation_of_classical_electromagnetism dbr:Hole_argument dbr:Superghost dbr:Unitarity_gauge dbr:Dirac_bracket dbr:Photon dbr:Fermi_gas dbr:Field_(physics) dbr:Maximum_Abelian_gauge dbr:Temporal_gauge dbr:Minimal_coupling dbr:Canonical_quantum_gravity dbr:Cartan_connection dbr:Magnetic_helicity dbr:Lorentz_invariance_in_non-critical_string_theory dbr:Lorenz_gauge_condition dbr:Faddeev–Popov_ghost dbr:List_of_things_named_after_Paul_Dirac dbr:Little–Parks_effect dbr:Structure_formation dbr:Change_of_gauge_(disambiguation) dbr:Ghost_(physics) dbr:Ξ_gauge dbr:Theta_vacuum dbr:Landau_gauge dbr:Radiation_gauge dbr:Coulomb_Gauge dbr:Coulomb_gauge dbr:Dirac_gauge dbr:Gauge-fixed dbr:Gauge-fixing dbr:Gauge_freedom dbr:Fock–Schwinger_gauge dbr:Feynman_gauge dbr:Weyl_gauge
is foaf:primaryTopic of	wikipedia-en:Gauge_fixing