Disappearance and emergence of space and time in quantum gravity

Oriti, Daniele

doi:10.1016/j.shpsb.2013.10.006

Cited by 111 publications

(128 citation statements)

References 75 publications

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“…30 For details on QCH, see, Markopoulou (2009), for quantum graphity, see: Konopka et al (2008). 31 Geometrogenesis is also described in group field theory, which is an active research program that utilises, and is useful for, various other approaches to QG, including LQG and causal set theory (Freidel, 2005;Oriti, 2009Oriti, , 2014. E state via Hamiltonian evolution, and the two states are supposed to be of the same system, being the entire universe.…”

Section: Spacetime Emergence In Pregeometric Approaches To Qgmentioning

confidence: 99%

As below, so before: ‘synchronic’ and ‘diachronic’ conceptions of spacetime emergence

Crowther

2020

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Typically, a less fundamental theory, or structure, emerging from a more fundamental one is an example of synchronic emergence. A model (and the physical state it describes) emerging from a prior model (state) upon which it nevertheless depends is an example of diachronic emergence. The case of spacetime emergent from quantum gravity and quantum cosmology challenges these two conceptions of emergence. Here, I propose two more-general conceptions of emergence, analogous to the synchronic and diachronic ones, but which are potentially applicable to the case of emergent spacetime: an inter-level, hierarchical conception, and an intra-level, 'flat' conception. I then explore whether, and how, these ideas may be applicable in the case of several putative examples of relativistic spacetime emergent from the non-spatiotemporal structures described by different approaches to quantum gravity, and of spacetime emergent from a non-spatiotemporal 'big bang' state according to different examples of quantum cosmology. Contents

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Section: Spacetime Emergence In Pregeometric Approaches To Qgmentioning

confidence: 99%

As below, so before: ‘synchronic’ and ‘diachronic’ conceptions of spacetime emergence

Crowther

2020

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“…In these special cases, the theory describes structures which correspond, roughly, to the geometry of our familiar experiences. Because of these features, Huggett and Wüthrich (2013) and Oriti (2014) claim that spacetime is emergent from the spin-networks of LQG. I will follow the convention of the literature and will continue to say "spacetime emergence" though, in the case of LQG, it might be more accurate to say "space emergence" given that the weave-states only encode the geometry of the three-dimensional hyper-surfaces of spacetime.…”

Section: Lqgmentioning

confidence: 99%

Incubating a future metaphysics: quantum gravity

Norton

2017

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“…From the start tensor models were also related to the group field theory (GFT) approach to quantum gravity [21,41,43]. This approach implements a sum over spin networks of loop quantum gravity [22] as a quantum field theory defined on a Lie group.…”

Section: Jhep08(2015)129mentioning

confidence: 99%