About: Causal fermion systems

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The theory of causal fermion systems is an approach to describe fundamental physics. It provides a unification of the weak, the strong and the electromagnetic forces with gravity at the level of classical field theory. Moreover, it gives quantum mechanics as a limiting case and has revealed close connections to quantum field theory. Therefore, it is a candidate for a unified physical theory.Instead of introducing physical objects on a preexisting spacetime manifold, the general concept is to derive spacetime as well as all the objects therein as secondary objects from the structures of an underlying causal fermion system. This concept also makes it possible to generalize notions of differential geometry to the non-smooth setting. In particular, one can describe situations when spacetime no

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rdfs:label	Causal fermion systems (en)
rdfs:comment	The theory of causal fermion systems is an approach to describe fundamental physics. It provides a unification of the weak, the strong and the electromagnetic forces with gravity at the level of classical field theory. Moreover, it gives quantum mechanics as a limiting case and has revealed close connections to quantum field theory. Therefore, it is a candidate for a unified physical theory.Instead of introducing physical objects on a preexisting spacetime manifold, the general concept is to derive spacetime as well as all the objects therein as secondary objects from the structures of an underlying causal fermion system. This concept also makes it possible to generalize notions of differential geometry to the non-smooth setting. In particular, one can describe situations when spacetime no (en)
dcterms:subject	Quantum field theory Quantum gravity Theoretical physics Mathematical physics
Wikipage page ID	42944052 (xsd:integer)
Wikipage revision ID	1101604680 (xsd:integer)
Link from a Wikipage to another Wikipage	Quantum field theory Quantum mechanics Schrödinger equation Electromagnetism Metric tensor (general relativity) Bounded variation Antiparticle Limiting case (philosophy of science) Pauli equation Quantum field theory Quantum gravity Theoretical physics Measure (mathematics) General covariance Classical field theory Einstein field equations General relativity Gravity Minkowski space Equivalence principle Lagrangian (field theory) Linear operator Lorentzian manifold Felix Finster Orthonormal basis Gauge invariance Gauge transformation Causal fermion system Wave functions Weak interaction Strong interaction Curvature Fermionic Feynman diagrams Fock state Partially ordered set Causality (physics) Dirac adjoint Dirac sea Fock space Pauli exclusion principle Projection (linear algebra) Quantum gravity Regularization (physics) Hilbert space Mathematical physics Holonomy Quantum geometry Differential geometry Dirac equation Manifold Borel measure Polar decomposition Spacetime Fermion Induced topology Inner product space Algebraic multiplicity Self-adjoint operator Set (mathematics) Yang–Mills equations Geometric multiplicity Support (measure theory) Metric signature Planck scale Finite-rank operator Topological space Spin structure Krein space Spinors Field equations Fundamental physics Gauge field
Link from a Wikipage to an external page	http://causal-fermion-system.com
sameAs	Causal fermion systems Causal fermion systems Causal fermion systems
dbp:wikiPageUsesTemplate	dbt:Primary_sources dbt:Reflist dbt:Short_description dbt:Beyond_the_Standard_Model
has abstract	The theory of causal fermion systems is an approach to describe fundamental physics. It provides a unification of the weak, the strong and the electromagnetic forces with gravity at the level of classical field theory. Moreover, it gives quantum mechanics as a limiting case and has revealed close connections to quantum field theory. Therefore, it is a candidate for a unified physical theory.Instead of introducing physical objects on a preexisting spacetime manifold, the general concept is to derive spacetime as well as all the objects therein as secondary objects from the structures of an underlying causal fermion system. This concept also makes it possible to generalize notions of differential geometry to the non-smooth setting. In particular, one can describe situations when spacetime no longer has a manifold structure on the microscopic scale (like a spacetime lattice or other discrete or continuous structures on the Planck scale). As a result, the theory of causal fermion systems is a proposal for quantum geometry and an approach to quantum gravity. Causal fermion systems were introduced by Felix Finster and collaborators. (en)
prov:wasDerivedFrom	wikipedia-en:Causal_fermion_systems?oldid=1101604680&ns=0
page length (characters) of wiki page	32466 (xsd:nonNegativeInteger)
foaf:isPrimaryTopicOf	wikipedia-en:Causal_fermion_systems
is Link from a Wikipage to another Wikipage of	Introduction to M-theory Causal fermion system CFS Causal action principle Causal Fermion Systems Causal variational principle
is Wikipage redirect of	Causal fermion system

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