Cosmology in Modified Gravity Theories I  

In General > s.a. cosmology in general relativity; cosmology in higher-order gravity; brane-world cosmology.
@ General references: Sollerman et al ApJ(09)-a0908 [constraints from SDSS-II and other data]; Nojiri & Odintsov PRP(11)-a1011; Bucher & Ni IJMPD(15)-a1509 [and general relativity]; Solomon PhD-a1508 [massive and bimetric gravity, Lorentz violation]; Nojiri et al PRP(17)-a1705 [rev].
@ Newtonian cosmology: Malament PhSc(95)dec; Tipler AJP(96)oct; Ehlers & Buchert GRG(97) [Lagrangian]; Tatekawa et al ap/01 [inhomogeneities]; Zalaletdinov gq/02, gq/02 [averaging]; Romero & Zamora gq/05 [quantum]; Noh & Hwang GRG(06) [non-linear]; Vickers SHPMP(09) [inconsistencies]; > s.a. relativistic cosmology.
@ Quasi-Newtonian: van Elst & Ellis CQG(98) [dust].
@ Post-Newtonian: Rainsford GRG(00)gq/99 [k = 0 FLRW model], & Szekeres GRG(00)gq/99; Rainsford GRG(01) [anisotropic].
@ Post-general relativity: Caldwell et al PRD(07)ap [parameter ψ measuring departure from general relativity with cosmological constant].
> Some other theories: see other modified theories [including varying constants, Cardassian expansion, higher-dimensional theories]; bimetric gravity; einstein-cartan theory; emergent gravity; massive gravity; Metric-Affine Gravity; MOND [TeVeS]; Non-Symmetric Gravity; Riemann-Cartan Structure; Steady-State Cosmology.
> Different futures: see cosmology; cosmological models [and alternatives to inflation]; general relativistic cosmology and models.
> Related topics: see bianchi models; cosmological tests of general relativity; gravitational thermodynamics; semiclassical general relativity.

Scalar-Tensor Theory > s.a. bianchi I models; brans-dicke phenomenology; cmb; cosmology; FLRW models; scalar-tensor theories.
* Remark: In many cases, the late-time evolution is difficult to distinguish from that predicted by general relativity.
@ General references: Faraoni 04; Faraoni AP(05)gq [phase space structure]; Catena et al PRD(07)ap/06 [frame-invariant approach]; Demiański et al A&A(08)-a0711 [models]; Sáez-Gómez a0812-fs; Llinares & Mota PRL(13)-a1302 [simulations]; Paliathanasis et al PRD(14)-a1403 [complete Noether symmetry analysis]; Kim et al PRD(17)-a1506 [with scalar matter]; Saridakis & Tsoukalas PRD(16)-a1601.
@ Cosmic acceleration: Boisseau et al PRL(00)gq; Esposito-Farèse & Polarski PRD(01); del Campo & Salgado CQG(03)ap; Demiański et al A&A(06)ap; Barenboim & Lykken JCAP(08)-a0711; Corda IJTGN-a0808; Banerjee & Ganguly IJMPD(09)-a0807; Fujii a0908-conf; Lee JCAP(11)-a1012; Farajollahi et al PRD(11)-a1201; > s.a. dark-energy models.
@ Singularities: Kaloper & Olive PRD(98) [FLRW models]; Faraoni PRD(04)gq; Gunzig & Saa IJTP(04) [removal by Cabcd Cabcd]; >  s.a. brans-dicke theory.
@ Perturbations: Carloni et al PRD(06)gq; Carloni & Dunsby PRD(07)gq/06 [tensor perturbations]; Vitagliano et al CQG(09)-a0906 [backreaction of inhomogeneities]; Bueno et al JCAP(10)-a1004 [growth of perturbations]; Hojjati et al PRD(16)-a1511 [large-scale structure surveys].
@ Other classical cosmology: Santiago et al PRD(98) [late evolution]; Coley GRG(99)ap [solutions]; Billyard et al PRD(99), JMP(00)gq [cyclic, heteroclinic]; Bezerra et al BJP(04)ht/03 [vacuum solutions]; Coc et al PRD(06)ap [nucleosynthesis]; Faraoni et al CQG(06) [non-chaotic]; Carloni et al CQG(08)gq/07 [FLRW metric + non-minimal scalar]; Singh & Chaubey Pra(06)-a1006 [cosmic no-hair theorem]; Ali et al ASS(14)-a1308 [inhomogeneous models]; Boisseau et al JCAP(15)-a1506 [bouncing models]; Tuusk et al CQG+(16) [inflation]; > s.a. chaos in bianchi models; dark energy; inflationary models.
@ Quantum cosmology: Fabris et al CQG(99) [non-minimal coupling], & Reuter GRG(00); Chakraborty NCB(01) [in Ashtekar variables]; > s.a. FLRW models; bianchi-I quantum cosmology [Bergmann-Wagoner theory].

Hořava-Lifshitz Gravity > s.a. gravitational thermodynamics; graviton; hořava-lifshitz gravity; quantum cosmology models.
* In general: The post-Newtonian coefficients coincide with those of general relativity, so the deviations from general relativity can be tested only in strong-gravity regimes; In its original version, the theory has a non-zero cosmological constant of the wrong sign.
@ General references: Kiritsis & Kofinas NPB(09); Calcagni JHEP(09)-a0904; Mukohyama et al PLB(09)-a0905 [radiation energy density]; Saridakis EJPC(10)-a0905 [and scalar field, dark energy]; Mukohyama PRD(09)-a0905 [dark matter]; Minamitsuji PLB(10)-a0905 [classification of evolutions]; Wang & Wu JCAP(09)-a0905 [thermodynamics]; Park JCAP(10)-a0906 [dark energy]; Carloni et al CQG(10)-a0909 [as dynamical system]; Leon & Saridakis JCAP(09)-a0909 [phase-space analysis]; Dutta & Saridakis JCAP(10)-a0911; Dutta & Saridakis JCAP(10)-a1002 [constraints on running parameter λ]; Son & Kim JCAP(10)-a1003 [cosmological phase transition]; Mukohyama CQG(10)-a1007 [rev]; Saridakis IJMPD(11)-a1101-conf [rev]; Nugmanova et al a1104; Frusciante et al PDU(16)-a1508.
@ FLRW models: Maeda et al PRD(10)-a1006 [oscillating]; Vakili & Kord JCAP(13)-a1301 [vacuum and perfect-fluid-filled]; Tawfik & El Dahab IJTP(17)-a1702 [effect of equations of state]; Cordero et al GRG(19)-a1711 [quantum, phase-space description]; Paliathanasis & Leon ZfN-a1903 [with scalar field, integrability].
@ Models: Cao et al JCAP(10)-a1001, Liu et al IJMPD(11)-a1007 [Friedmann equation]; Son & Kim MPLA(11)-a1007 [non-singular cyclic universe]; Czuchry CQG(11)-a1008 [bounce]; Christodoulakis & Dimakis JGP(12)-a1112 [Bianchi III models]; Huang et al JCAP(12)-a1201 [inflation, with projectability condition and arbitrary coupling constant λ]; Giani & Kamenshchik CQG(17)-a1606 [Bianchi II]; > s.a. bianchi IX models [mixmaster universe]; de sitter spacetime [stability].
@ Cosmological perturbations: Brandenberger PRD(09)-a0904 [and matter bounce]; Gao a0904; Gao et al PRD(10)-a0905; Mukohyama JCAP(09)-a0904 [scale-invariant]; Yamamoto et al PRD(09)-a0907 [primordial power spectrum]; Wang & Maartens PRD(10)-a0907; Kobayashi et al JCAP(09)-a0908 [large-scale evolution]; Wang et al JCAP(10)-a0909 [scalar]; Chen et al a0910 [power spectra of scalar and tensor modes]; Piao PLB(09) [primordial]; Gao et al JCAP(10)-a0911; Gong et al PRD(10)-a1002; Kobayashi et al JCAP(10)-a1002 [in healthy extension]; Cerioni & Brandenberger JCAP(11)-a1007 [in the projectable version], a1008 [healthy extension]; Wang PRD(10)-a1008 [vector and tensor]; Gümrükçüoğlu & Mukohyama PRD(11) [λ → ∞ limit]; Ferreira & Brandenberger PRD(12)-a1204 [the trans-Planckian problem].
@ Cosmological constant: Appignani et al JCAP(10)-a0907; Garattini PRD(12)-a0912 [as eigenvalue of the Hamiltonian constraint].
@ f(R) gravity: Chaichian et al CQG(10)-a1001 [acceleration]; Elizalde et al EPJC(10)-a1006 [inflation and dark energy]; Sáez-Gómez PRD(11)-a1011, JPCS(11)-a1012; Chakrabarti et al PLB(12)-a1108; > s.a. early-universe models [emergent spacetime].


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