Quantum field theory in curved spacetime

Ordinary quantum field theories, which form the basis of standard model, are defined in flat Minkowski space, which is an excellent approximation when it comes to describing the behavior of microscopic particles in weak gravitational fields like those found on Earth.For non-zero cosmological constants, on curved spacetimes quantum fields lose their interpretation as asymptotic particles.[2] Only in certain situations, such as in asymptotically flat spacetimes (zero cosmological curvature), can the notion of incoming and outgoing particle be recovered, thus enabling one to define an S-matrix.Another observation is that unless the background metric tensor has a global timelike Killing vector, there is no way to define a vacuum or ground state canonically.[13][14][15][16] This formalism is also used to predict the primordial density perturbation spectrum arising in different models of cosmic inflation.

Quantum field theoryFeynman diagramHistoryField theoryElectromagnetismWeak forceStrong forceQuantum mechanicsSpecial relativityGeneral relativityGauge theoryYang–Mills theorySymmetriesSymmetry in quantum mechanicsC-symmetryP-symmetryT-symmetryLorentz symmetryPoincaré symmetryGauge symmetryExplicit symmetry breakingSpontaneous symmetry breakingNoether chargeTopological chargeAnomalyBackground field methodBRST quantizationCorrelation functionCrossingEffective actionEffective field theoryExpectation valueLattice field theoryLSZ reduction formulaPartition functionPath Integral FormulationPropagatorQuantizationRegularizationRenormalizationVacuum stateWick's theoremWightman axiomsDirac equationKlein–Gordon equationProca equationsWheeler–DeWitt equationBargmann–Wigner equationsSchwinger-Dyson equationRenormalization group equationStandard ModelQuantum electrodynamicsElectroweak interactionQuantum chromodynamicsHiggs mechanismString theorySupersymmetryTechnicolorTheory of everythingQuantum gravityAndersonAnselmBargmannBecchiBelavinBerezinBjorkenBleuerBogoliubovBrodskyBuchholzCachazoCallanColemanConnesDashenDeWittDoplicherEnglertFaddeevFeynmanFramptonFritzschFröhlichFredenhagenGlashowGell-MannGoldstoneGribovGuralnikHeisenberg't HooftIliopoulosIvanenkoJackiwJona-LasinioJordanKällénKendallKinoshitaKlebanovKontsevichKreimerKuraevLandauLehmannLeutwylerLipatovŁopuszańskiLüdersMaianiMajoranaMaldacenaMatsubaraMigdalMøllerNaimarkNishijimaOppenheimerOsbornOsterwalderParisiPecceiPeskinPlefkaPolchinskiPolyakovPomeranchukRubakovRuelleSakuraiSchraderSchwarzSchwingerSeibergSemenoffShifmanShirkovSkyrmeSommerfieldStueckelbergSudarshanSymanzikTakahashiThirringTomonagaTyutinVainshteinVeltmanVenezianoVirasoroWeinbergWeisskopfWentzelWetterichWightmanWignerWilczekWilsonWittenYukawaZamolodchikovZimmermannZinn-JustinZuminotheoretical physicsMinkowski spacetimecurved spacetimegravitational fieldsgravitonpair productionHawking radiationblack holesquantum field theoriesMinkowski spacecosmological constantsparticlescosmologicalS-matrixmetric tensorKilling vectorvacuumdiffeomorphismsFourier transformCreation operatorsannihilation operatorsheat bathlocal quantum field theoryRudolf HaagDaniel Kastlerperturbation theorysemiclassicalquantum fieldsUnruh effectperturbationcosmic inflationBunch–Davies vacuumrenormalizableHistory of quantum field theory