About: Mode coupling

An Entity of Type: Eye105311054, from Named Graph: http://dbpedia.org, within Data Space: dbpedia.org

In the term mode coupling, as used in physics and electrical engineering, the word "mode" refers to eigenmodes of an idealized, "unperturbed", linear system. The superposition principle says that eigenmodes of linear systems are independent of each other: it is possible to excite or to annihilate a specific mode without influencing any other mode; there is no dissipation. In most real systems, however, there is at least some perturbation that causes energy transfer between different modes. This perturbation, interpreted as an interaction between the modes, is what is called "mode coupling".

Property	Value
dbo:abstract	In the term mode coupling, as used in physics and electrical engineering, the word "mode" refers to eigenmodes of an idealized, "unperturbed", linear system. The superposition principle says that eigenmodes of linear systems are independent of each other: it is possible to excite or to annihilate a specific mode without influencing any other mode; there is no dissipation. In most real systems, however, there is at least some perturbation that causes energy transfer between different modes. This perturbation, interpreted as an interaction between the modes, is what is called "mode coupling". Important applications are: * In fiber optics * In lasers (compare mode-locking) * In condensed-matter physics, can be described by a Coupled mode theory. (en)
dbo:wikiPageID	30139196 (xsd:integer)
dbo:wikiPageLength	2478 (xsd:nonNegativeInteger)
dbo:wikiPageRevisionID	1097502721 (xsd:integer)
dbo:wikiPageWikiLink	dbc:Fiber-optic_communications dbr:Mode-locking dbr:Equilibrium_mode_distribution dbr:Perturbation_theory dbr:Superposition_principle dbc:Condensed_matter_physics dbr:Dissipation dbr:Linear_system dbc:Nonlinear_optics dbr:Coupled_mode_theory dbr:Laser dbr:Fiber_optics dbr:Nonlinear_acoustics dbr:Nonlinear_optics dbr:Eigenmode dbr:Condensed-matter_physics dbr:Critical_slowing_down
dcterms:subject	dbc:Fiber-optic_communications dbc:Condensed_matter_physics dbc:Nonlinear_optics
rdf:type	yago:WikicatNonlinearOptics yago:BodyPart105220461 yago:Eye105311054 yago:Organ105297523 yago:Part109385911 yago:PhysicalEntity100001930 yago:SenseOrgan105299178 yago:Thing100002452
rdfs:comment	In the term mode coupling, as used in physics and electrical engineering, the word "mode" refers to eigenmodes of an idealized, "unperturbed", linear system. The superposition principle says that eigenmodes of linear systems are independent of each other: it is possible to excite or to annihilate a specific mode without influencing any other mode; there is no dissipation. In most real systems, however, there is at least some perturbation that causes energy transfer between different modes. This perturbation, interpreted as an interaction between the modes, is what is called "mode coupling". (en)
rdfs:label	Mode coupling (en)
owl:sameAs	freebase:Mode coupling yago-res:Mode coupling wikidata:Mode coupling https://global.dbpedia.org/id/4rpi5
prov:wasDerivedFrom	wikipedia-en:Mode_coupling?oldid=1097502721&ns=0
foaf:isPrimaryTopicOf	wikipedia-en:Mode_coupling
is dbo:wikiPageWikiLink of	dbr:Unitary_transformation_(quantum_mechanics) dbr:List_of_laser_articles dbr:Equilibrium_mode_distribution dbr:Orbital_angular_momentum_multiplexing dbr:Liquid dbr:Hybrid_plasmonic_waveguide dbr:Mode_scrambler dbr:Nonlinear_system
is foaf:primaryTopic of	wikipedia-en:Mode_coupling