2018
DOI: 10.1103/physrevd.98.064029
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Interesting features of a general class of higher-derivative theories of quantum gravity

Abstract: In this work we investigate an interesting connection between the absence of Newtonian singularities in the classical non-relativistic potential and renormalizability properties in Higher-Derivative models of Quantum Gravity. In the framework of a large class of Ddimensional Higher-Derivative models of Quantum Gravity, we compute the non-relativistic potential energy associated with two point-like masses. Investigating its behavior for small distances, we find an algebraic condition which is sufficient for the… Show more

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Cited by 7 publications
(9 citation statements)
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“…IV. Furthermore, we comment that, for the gravitational interaction of spin-0 particles, it is possible to generalize our results to arbitrary dimensions, as already discussed in the literature for modified theories of gravity in monopole-monopole sector (see [39,40] references therein). However, for spin-1 2 case and its spindependent contributions, this extension shall be a nontrivial task, since the definition of spin is particular to the dimension we are dealing with.…”
Section: : ð25bþsupporting
confidence: 64%
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“…IV. Furthermore, we comment that, for the gravitational interaction of spin-0 particles, it is possible to generalize our results to arbitrary dimensions, as already discussed in the literature for modified theories of gravity in monopole-monopole sector (see [39,40] references therein). However, for spin-1 2 case and its spindependent contributions, this extension shall be a nontrivial task, since the definition of spin is particular to the dimension we are dealing with.…”
Section: : ð25bþsupporting
confidence: 64%
“…The observation at the end of the previous section trigger a question regarding the cancellation of Newtonian singularities. In particular, it would be interesting to investigate whether the regular behavior at r ¼ 0, observed in higherderivative models of gravity [4,40,51,52], persists after the inclusion of contributions beyond the static limit. This particular test is easily addressed in terms of the results presented in Sec.…”
Section: Remarks On the Cancellation Of Newtonian Singularitiesmentioning
confidence: 99%
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“…The present work revisits two topics that have previously been investigated in the context of local and nonlocal higher-derivative gravity models, namely, the nonrelativistic limit [10,20,[44][45][46][47][48][49] and the collapse of small mass spherical shells [50,51]. Our focus is on general polynomial gravity, with a special attention given to the case of complex poles-Lee-Wick gravity-and also, for the sake of completeness, higher-order (degenerate) poles.…”
Section: Introductionmentioning
confidence: 98%
“…Finally, this might correspond to the condition of super-renormalizability [2,22]. At this point, it would be better to distinguish three types of renormalizable theory.…”
Section: Infinite-derivative Gravitymentioning
confidence: 99%