Hamiltonian analysis of mimetic scalar gravity revisited

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Alexander Ganz
  • Purnendu Karmakar
  • Sabino Matarrese
  • Dmitri Sorokin

Externe Organisationen

  • Università degli Studi di Padova
  • Istituto Nazionale di Fisica Nucleare (INFN)
  • Gran Sasso Science Institute
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Details

OriginalspracheEnglisch
Aufsatznummer064009
FachzeitschriftPhysical Review D
Jahrgang99
Ausgabenummer6
Frühes Online-Datum8 März 2019
PublikationsstatusVeröffentlicht - 15 März 2019
Extern publiziertJa

Abstract

We perform the Hamiltonian analysis of several mimetic gravity models and compare our results with those obtained previously by different authors. We verify that, for healthy mimetic scalar-tensor theories, the condition for the corresponding part of the Hamiltonian to be bounded from below is the positive value of the mimetic field energy density λ. We show that, for mimetic dark matter possessing a shift symmetry, the mimetic energy density remains positive in time, provided appropriate boundary conditions are imposed on its initial value, while in models without shift symmetry, the positive energy density can be maintained by simply replacing λ→eλ. The same result also applies to mimetic f(R) gravity, which is healthy if the usual stability conditions of the standard f(R) gravity are assumed and λ>0. In contrast, if we add mimetic matter to an unhealthy seed action, the resulting mimetic gravity theory remains, in general, unstable. As an example, we consider a scalar-tensor theory with the higher-derivative term (□φ)2, which contains an Ostrogradski ghost. We also revisit results regarding stability issues of linear perturbations around the FLRW background of the mimetic dark matter in the presence of ordinary scalar matter. We find that the presence of conventional matter does not revive dynamical ghost modes (at least in the UV limit). The modes, whose Hamiltonian is not positive definite, are nonpropagating (have zero sound speed) and are associated with the mimetic matter itself. They are already present in the case in which the ordinary scalar fluid is absent, causing a growth of dust overdensity.

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Hamiltonian analysis of mimetic scalar gravity revisited. / Ganz, Alexander; Karmakar, Purnendu; Matarrese, Sabino et al.
in: Physical Review D, Jahrgang 99, Nr. 6, 064009, 15.03.2019.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Ganz A, Karmakar P, Matarrese S, Sorokin D. Hamiltonian analysis of mimetic scalar gravity revisited. Physical Review D. 2019 Mär 15;99(6):064009. Epub 2019 Mär 8. doi: 10.48550/arXiv.1812.02667, 10.1103/PhysRevD.99.064009
Ganz, Alexander ; Karmakar, Purnendu ; Matarrese, Sabino et al. / Hamiltonian analysis of mimetic scalar gravity revisited. in: Physical Review D. 2019 ; Jahrgang 99, Nr. 6.
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title = "Hamiltonian analysis of mimetic scalar gravity revisited",
abstract = "We perform the Hamiltonian analysis of several mimetic gravity models and compare our results with those obtained previously by different authors. We verify that, for healthy mimetic scalar-tensor theories, the condition for the corresponding part of the Hamiltonian to be bounded from below is the positive value of the mimetic field energy density λ. We show that, for mimetic dark matter possessing a shift symmetry, the mimetic energy density remains positive in time, provided appropriate boundary conditions are imposed on its initial value, while in models without shift symmetry, the positive energy density can be maintained by simply replacing λ→eλ. The same result also applies to mimetic f(R) gravity, which is healthy if the usual stability conditions of the standard f(R) gravity are assumed and λ>0. In contrast, if we add mimetic matter to an unhealthy seed action, the resulting mimetic gravity theory remains, in general, unstable. As an example, we consider a scalar-tensor theory with the higher-derivative term (□φ)2, which contains an Ostrogradski ghost. We also revisit results regarding stability issues of linear perturbations around the FLRW background of the mimetic dark matter in the presence of ordinary scalar matter. We find that the presence of conventional matter does not revive dynamical ghost modes (at least in the UV limit). The modes, whose Hamiltonian is not positive definite, are nonpropagating (have zero sound speed) and are associated with the mimetic matter itself. They are already present in the case in which the ordinary scalar fluid is absent, causing a growth of dust overdensity.",
author = "Alexander Ganz and Purnendu Karmakar and Sabino Matarrese and Dmitri Sorokin",
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AU - Ganz, Alexander

AU - Karmakar, Purnendu

AU - Matarrese, Sabino

AU - Sorokin, Dmitri

N1 - Funding Information: http://www2.iap.fr/users/pitrou/xpand.htm The work of D. S. was supported in part by the Russian Science Foundation Grant No. 14-42-00047 in association with the Lebedev Physical Institute and by the Australian Research Council Project No. DP160103633. S. M. acknowledges partial financial support by ASI Grant No. 2016- 24-H.0. P. K. acknowledges financial support from “Fondazione Ing. Aldo Gini.”

PY - 2019/3/15

Y1 - 2019/3/15

N2 - We perform the Hamiltonian analysis of several mimetic gravity models and compare our results with those obtained previously by different authors. We verify that, for healthy mimetic scalar-tensor theories, the condition for the corresponding part of the Hamiltonian to be bounded from below is the positive value of the mimetic field energy density λ. We show that, for mimetic dark matter possessing a shift symmetry, the mimetic energy density remains positive in time, provided appropriate boundary conditions are imposed on its initial value, while in models without shift symmetry, the positive energy density can be maintained by simply replacing λ→eλ. The same result also applies to mimetic f(R) gravity, which is healthy if the usual stability conditions of the standard f(R) gravity are assumed and λ>0. In contrast, if we add mimetic matter to an unhealthy seed action, the resulting mimetic gravity theory remains, in general, unstable. As an example, we consider a scalar-tensor theory with the higher-derivative term (□φ)2, which contains an Ostrogradski ghost. We also revisit results regarding stability issues of linear perturbations around the FLRW background of the mimetic dark matter in the presence of ordinary scalar matter. We find that the presence of conventional matter does not revive dynamical ghost modes (at least in the UV limit). The modes, whose Hamiltonian is not positive definite, are nonpropagating (have zero sound speed) and are associated with the mimetic matter itself. They are already present in the case in which the ordinary scalar fluid is absent, causing a growth of dust overdensity.

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