Relevant bibliographies by topics / Multiverse theory

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Multiverse theory'

Author: Grafiati
Published: 4 June 2021
Last updated: 29 May 2022

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Journal articles on the topic "Multiverse theory"

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Jevtic, Vladimir. "Multiverse and topology of time." Theoria, Beograd 56, no. 1 (2013): 47–57. http://dx.doi.org/10.2298/theo1301045j.

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Modern cosmological theories like theory of eternal chaotic inflation or cosmological model of brane universe, which represent implication of modern string theory, imply existence of ensemble of actual universes which create so-called multivers. Implication of this theories are of the great importance for philosophy of time. This paper concern topology of time in context of existence of the multiverse. We will show that topology of time in such multiverse, whose particular universes would be generated due to eternal chaotic inflation, should be non-standard and that in the case of existence of multiverse only model which include topology of brenching time should be acceptable like real description of multiverse. Moreover, we will show that, the existence of hypothetical entities like Kerr`s rotating black holes, also represent necessary and sufficient condition of branching spacetime in such multiverse.
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Antos, Carolin, Sy-David Friedman, Radek Honzik, and Claudio Ternullo. "Multiverse conceptions in set theory." Synthese 192, no. 8 (July 22, 2015): 2463–88. http://dx.doi.org/10.1007/s11229-015-0819-9.

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Antonov, Alexander Alexandrovich. "Hypothesis of the Hidden Multiverse Explains Dark Matter and Dark Energy." Applied Physics Research 9, no. 2 (February 16, 2017): 30. http://dx.doi.org/10.5539/apr.v9n2p30.

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There are currently a large number of Multiverse hypotheses, which are, however, non-verifiable, i.e. they can be neither confirmed nor refuted experimentally even in the distant future. In contrast, the hypothesis of the hidden Multiverse considered in the article is verifiable and therefore has a right to be called a theory. The theory uses the principle of physical reality of imaginary numbers discovered 500 years ago, including complex and hypercomplex numbers, as fundamental and proved by the author theoretically and experimentally. This principle has allowed revealing a number of serious mistakes in the special theory of relativity. An adjusted version of the special theory of relativity has been proposed and the theory of the hidden Multiverse has been developed on its basis. The Multiverse has been referred to as hidden, because parallel universes it contains are mutually invisible. The nature of their invisibility is explained in the article. It is shown that dark matter and dark energy are other universes of the hidden Multiverse apart from ours. Analysis of data from WMAP and Planck spacecrafts has shown that the hidden Multiverse has quaternion structure comprising four pairs of universes and antiverses (i.e., four pairs of matter and antimatter).
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Gefter, Amanda. "Take a tour around multiverse theory." New Scientist 209, no. 2799 (February 2011): 49. http://dx.doi.org/10.1016/s0262-4079(11)60342-4.

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DAVIES, P. C. W. "MULTIVERSE COSMOLOGICAL MODELS." Modern Physics Letters A 19, no. 10 (March 28, 2004): 727–43. http://dx.doi.org/10.1142/s021773230401357x.

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Recent advances in string theory and inflationary cosmology have led to a surge of interest in the possible existence of an ensemble of cosmic regions, or "universes", among the members of which key physical parameters, such as the masses of elementary particles and the coupling constants, might assume different values. The observed values in our cosmic region are then attributed to an observer selection effect (the so-called anthropic principle). The assemblage of universes has been dubbed "the multiverse". In this paper we review the multiverse concept and the criticisms that have been advanced against it on both scientific and philosophical grounds.
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FAIZAL, MIR. "MULTIVERSE IN THE THIRD QUANTIZED HORAVA–LIFSHITZ THEORY OF GRAVITY." Modern Physics Letters A 27, no. 02 (January 20, 2012): 1250007. http://dx.doi.org/10.1142/s0217732312500071.

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In this paper we analyze the third quantization of Horava–Lifshitz theory of gravity without detail balance. We show that the Wheeler–DeWitt equation for Horava–Lifshitz theory of gravity in minisuperspace approximation becomes the equation for time-dependent harmonic oscillator. After interpreting the scaling factor as the time, we are able to derive the third quantized wave function for multiverse. We also show in third quantized formalism it is possible that the universe can form from nothing. Then we go on to analyze the effect of introducing interactions in the Wheeler–DeWitt equation. We see how this model of interacting universes can be used to explain baryogenesis with violation of baryon number conservation in the multiverse. We also analyze how this model can possibly explain the present value of the cosmological constant. Finally we analyze the possibility of the multiverse being formed from perturbations around a false vacuum and its decay to a true vacuum.
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Alonso-Serrano, Ana, and Gil Jannes. "Conceptual Challenges on the Road to the Multiverse." Universe 5, no. 10 (October 10, 2019): 212. http://dx.doi.org/10.3390/universe5100212.

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The current debate about a possible change of paradigm from a single universe to a multiverse scenario could have deep implications on our view of cosmology and of science in general. These implications therefore deserve to be analyzed from a fundamental conceptual level. We briefly review the different multiverse ideas, both historically and within contemporary physics. We then discuss several positions within philosophy of science with regard to scientific progress, and apply these to the multiverse debate. Finally, we construct some key concepts for a physical multiverse scenario and discuss the challenges this scenario has to deal with in order to provide a solid, testable theory.
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Grygiel, Wojciech P. "Multiverse, M-theory, and God the Creator." International Philosophical Quarterly 53, no. 1 (2013): 23–35. http://dx.doi.org/10.5840/ipq20135313.

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McAlpine, Kate. "M Theory: doubts linger over godless multiverse." New Scientist 207, no. 2778 (September 2010): 12. http://dx.doi.org/10.1016/s0262-4079(10)62248-8.

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HAMKINS, JOEL DAVID. "THE SET-THEORETIC MULTIVERSE." Review of Symbolic Logic 5, no. 3 (August 9, 2012): 416–49. http://dx.doi.org/10.1017/s1755020311000359.

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AbstractThe multiverse view in set theory, introduced and argued for in this article, is the view that there are many distinct concepts of set, each instantiated in a corresponding set-theoretic universe. The universe view, in contrast, asserts that there is an absolute background set concept, with a corresponding absolute set-theoretic universe in which every set-theoretic question has a definite answer. The multiverse position, I argue, explains our experience with the enormous range of set-theoretic possibilities, a phenomenon that challenges the universe view. In particular, I argue that the continuum hypothesis is settled on the multiverse view by our extensive knowledge about how it behaves in the multiverse, and as a result it can no longer be settled in the manner formerly hoped for.
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Dissertations / Theses on the topic "Multiverse theory"

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Wallace, David. "The emergent multiverse : quantum theory according to the Everett interpretation." Thesis, University of Oxford, 2010. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.550783.

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This thesis attempts a full defence of the Everett ("many-worlds") interpreta- tion of quantum mechanics. Its purpose is to show that unitary quantum mechanics, interpreted just as we interpret other physical theories - that is, literally and re- alistically - is a perfectly coherent physical theory and tells us that the observed universe is one in an indefinitely large number of quasiclassical universes. These universes are not part of the fundamental formalism of quantum mechanics, but are emergent from it in the usual way in which macro-ontology emerges from underlying microphysics - hence, "emergent multi verse". The thesis is divided into two parts. In the first part I expound and motivate the Everett interpretation, explain the gen- eral framework for thinking about emergence which I use, and show qualitatively how this framework, applied to unitary quantum mechanics, leads to the existence of 'many worlds'. I then consider the technical aspects of this process in detail, and show exactly what part environment-induced decoherence has to play. In the second part, I address the problem of probability. I first argue that essentially all extant strategies for understanding probability make as much (or as little!) sense in (Everettian) quantum mechanics as they do in non-branching physics, so that probability is not a problem specific to the Everett interpretation. I then develop a decision-theoretic framework for thinking about probability in quantum mechanics, within which it is possible to prove a very general representation theorem, which tells us that rational agents should treat quantum-mechanical weights exactly as objective probabilities, and connect that framework to previous work by myself and others. I conclude that unitary quantum mechanics is fully satisfactory as a physical theory - just as satisfactory, in fact, as classical theories like Newtonian particle mechanics or general relativity. The Everett interpretation, therefore, provides a dissolution of the problem of measurement. 1 This is the second DPhil thesis I have submitted to Oxford University. My previous thesis, submitted in fulfilment of the requirements of the degree of DPhil in Atomic and Laser Physics, was examined and passed in 2002. I submit this thesis in fulfilment of the requirements of the degree of DPhil in Philosophy.
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Москаленко, В. Г., and А. М. Богданик. "Мультивсесвіт." Thesis, Сумський державний університет, 2015. http://essuir.sumdu.edu.ua/handle/123456789/44052.

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Згідно з деякими припущеннями , наш Всесвіт - це лише частина від безлічі інших Всесвітів, який називається Мультивсесвітом (Метавсесвітом). Хаотична теорія інфляції припускає нескінченну різноманітність Всесвітів кожен із яких має відмінні від інших фізичні константи. В іншій теорії Всесвіти розрізняють за квантовим вимірюванням. Хоча дані гіпотези експериментально провірити не можливо. Припускається, що Мультивсесвіт може мати вигляд як безмежна кількість «бульбашок» - кожна із яких окремий всесвіт.
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Matsubara, Keizo. "Stringed along or caught in a loop? : Philosophical reflections on modern quantum gravity research." Doctoral thesis, Uppsala universitet, Avdelningen för teoretisk filosofi, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-185554.

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A number of philosophical questions, all connected to modern research in quantum gravity, are discussed in this dissertation. The goal of research in quantum gravity is to find a quantum theory for gravitation; the other fundamental forces are already understood in terms of quantum physics. Quantum gravity is studied within a number of different research programmes. The most popular are string theory and loop quantum gravity; besides these a number of other approaches are pursued. Due to the lack of empirical support, it is relevant to assess the scientific status of this research. This is done from four different points of view, namely the ones held by: logical positivists, Popper, Kuhn and Lakatos. It is then argued that research in quantum gravity may be considered scientific, conditional on scientists being open with the tentative and speculative nature of their pursuits. Given the lack of empirical progress, in all approaches to quantum gravity, a pluralistic strategy is advised. In string theory there are different theoretical formulations, or dualities, which are physically equivalent. This is relevant for the problem of underdetermination of theories by data, and the debate on scientific realism. Different views on the dualities are possible. It is argued that a more empiricist view on the semantics of theories, than what has been popular lately, ought to be adopted. This is of importance for our understanding of what the theories tell us about space and time. In physics and philosophy, the idea that there are worlds or universes other than our own, has appeared in different contexts. It is discussed how we should understand these different suggestions; how they are similar and how they are different. A discussion on, how and when theoretical multiverse scenarios can be empirically testable, is also given. The reliability of thought experiments in physics in general and in quantum gravity in particular is evaluated. Thought experiments can be important for heuristic purposes, but in the case of quantum gravity, conclusions based on thoght experiments are not very reliable.
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Salas, Leslie. "Mirrors and Vanities." Master's thesis, University of Central Florida, 2013. http://digital.library.ucf.edu/cdm/ref/collection/ETD/id/5697.

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Mirrors and Vanities is a multi-modal collection which showcases the diversity of working in long and short storytelling forms. Featured in this thesis are fiction, nonfiction, graphic narrative, and screenplay. Using unconventional approaches to storytelling in order to achieve emotional resonance with the audience while maintaining high standards for craft, these stories and essays explore the costs inherent to the subtle nuances of interpersonal relationships. The fiction focuses on the complications of characters keeping secrets. A husband discovers the truth behind his wife's miscarriage. A girl visits her fiance in purgatory. A boy crosses a line and loses his best friend. Meanwhile, the nonfiction centers on self-discovery and gender roles associated with power struggles. A schizophrenic threatens to ruin my mother's wedding. I rediscover my relationship with my father through food writing. Sword-work teaches me to fail and succeed at making martial art. The title work of the thesis is a collaged story highlighting the tribulations of a physicist fixated on recovering his lost love by manipulating the multiverse. The multi-modal format implicates the nebulosity of physics theories and how different aspects of the narrative can be presented in various formats to best suit the nature of the storytelling. Through the interactions of characters in mundane and extraordinary circumstances, the works in this thesis examine the consequences of choice, the contrast between reality and expectation, coming of age, and the Truth of narrative.
M.F.A.
Masters
English
Arts and Humanities
Creative Writing
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Books on the topic "Multiverse theory"

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In search of the multiverse: Parallel worlds, hidden dimensions, and the ultimate quest for the frontiers of reality. Hoboken, N.J: Wiley, 2010.

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Karpenko, Ivan. Philosophy of Physics: towards new Principles of Scientific Knowledge. ru: INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1141769.

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The author analyzes a number of key problems of modern physics and cosmology, offers original interpretations and solutions, and also discusses the prospects for the development of science in the context of attempts to create a "theory of everything". The monograph pays special attention to the physical theories of the multiverse, the new principles of scientific knowledge resulting from these theories, and the connection between consciousness and concrete physical reality. It is intended both for those who are just discovering the world of philosophy of science in the most fundamental field — physics, and for specialists who are professionally engaged in the topic and are interested in the most relevant research.
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The Emergent Multiverse Quantum Theory According To The Everett Interpretation. Oxford University Press, 2014.

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The Emergent Multiverse Quantum Theory According To The Everett Interpretation. Oxford University Press, USA, 2012.

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Nomura, Yasunori. Quantum physics, mini black holes, and the multiverse: Debunking common misconceptions in theoretical physics. Edited by Poirier Bill author and Terning John 1962 author. 2018.

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Vigdor, Steven E. Lucky or Special? Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198814825.003.0009.

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Chapter 9 sums up the cumulative evidence from preceding chapters and addresses (without resolution) the underlying question of how to interpret the existence of a universe so finely tuned. The chapter’s central science vs. religion theme contrasts conceptions of a Creator, who established conditions for life, with the anthropic principle, which claims that it is inevitable that living observers find physical attributes that are tuned to support life in their universe. The concepts of eternal inflation, the multiverse, and the string theory landscape of myriad possible vacuum states are introduced. The astronomical odds against landing in a universe built on a string theory vacuum capable of supporting life are contrasted with the vastly superior odds of finding a planet in our universe within the habitable zone of a living star. The testability of the multiverse concept is discussed in the framework of Karl Popper’s criterion of scientific falsifiability.
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Universe or Multiverse? Cambridge University Press, 2009.

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Kragh, Helge. Physics and Cosmology. Edited by Jed Z. Buchwald and Robert Fox. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199696253.013.30.

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This article considers the role of physics in transforming cosmology into a research field which relies heavily on fundamental physical knowledge. It begins with an overview of astrophysics and the state of physical cosmology prior to the introduction of relativity, followed by a discussion of Albert Einstein’s application of his new theory of gravitation to cosmology. It then examines the development of a theory about the possibility of an expanding universe, citing the work of such scientists as Edwin Hubble, Alexander Friedmann, Georges Lemaître, and George Gamow; the emergence of the field of nuclear archaeology to account for the origins of the early universe; and the controversy sparked by the steady-state theory. It also describes the discovery of a cosmic microwave background of the kind that Alpher and Herman had predicted in 1948 before concluding with a review of modern cosmological hypotheses such as the idea of ‘multiverse’.
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Beisbart, Claus. Philosophy and Cosmology. Edited by Paul Humphreys. Oxford University Press, 2015. http://dx.doi.org/10.1093/oxfordhb/9780199368815.013.36.

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Cosmological questions (e.g., how far the world extends and how it all began) have occupied humans for ages and given rise to numerous conjectures, both within and outside philosophy. To put to rest fruitless speculation, Kant argued that these questions move beyond the limits of human knowledge. This article begins with Kant’s doubts about cosmology and shows that his arguments presuppose unreasonably high standards on knowledge and unwarranted assumptions about space-time. As an analysis of the foundations of twentieth-century cosmology reveals, other worries about the discipline can be avoided too if the universe is modeled using Einstein’s general theory of relativity. There is now strong observational support for one particular model. However, due to underdetermination problems, the big cosmological questions cannot be fully answered using this model either. This opens the space for more speculative proposals again (e.g., that the universe is only part of a huge multiverse).
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Choi, Isaac. Infinite Cardinalities, Measuring Knowledge, and Probabilities in Fine-Tuning Arguments. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198798705.003.0006.

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This chapter deals with two different problems in which infinity plays a central role. It first responds to a claim that infinity renders counting knowledge-level beliefs an infeasible approach to measuring and comparing how much we know. There are two methods of comparing sizes of infinite sets, using the one-to-one correspondence principle or the subset principle, and it argues that we should use the subset principle for measuring knowledge. The chapter then turns to the normalizability and coarse tuning objections to fine-tuning arguments for the existence of God or a multiverse. These objections center on the difficulty of talking about the epistemic probability of a physical constant falling within a finite life-permitting range when the possible range of that constant is infinite. Applying the lessons learned regarding infinity and the measurement of knowledge, the chapter hopes to blunt much of the force of these objections to fine-tuning arguments.
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Book chapters on the topic "Multiverse theory"

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Qin, Yaqing. "A multiverse of knowledge." In Globalizing IR Theory, 139–57. Abingdon, Oxon ; New York, NY : Routledge, 2020. | Series: IR theory and practice in Asia: Routledge, 2020. http://dx.doi.org/10.4324/9780429356292-8.

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Antos, Carolin, Sy-David Friedman, Radek Honzik, and Claudio Ternullo. "Multiverse Conceptions in Set Theory." In The Hyperuniverse Project and Maximality, 47–73. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-62935-3_3.

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Perlov, Delia, and Alex Vilenkin. "String Theory and the Multiverse." In Cosmology for the Curious, 291–99. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-57040-2_19.

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Hebecker, Arthur. "String Theory: Bosonic String." In Naturalness, String Landscape and Multiverse, 85–116. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-65151-0_3.

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Hebecker, Arthur. "String Theory: Interactions and Superstring." In Naturalness, String Landscape and Multiverse, 117–43. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-65151-0_4.

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Koons, Robert C. "Reconciling Meticulous Divine Providence with Objective Chance." In Abrahamic Reflections on Randomness and Providence, 223–41. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-75797-7_11.

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AbstractRandomness can be defined in terms of objective probability: an event is random just in case its objective probability (in the circumstances) is other than zero or one. There is a tension between objective probability and divine providence: if God has arranged for E to occur, then its objective probability would seem to be one. I will first show that this tension creates problems for six models of how to combine worldly chance with divine providence: determinism, Molinism, Thomism, divine luck, the multiverse, and van Inwagen’s theory of chance. I will then develop two new solutions to this problem.
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Guiderdoni, Bruno. "Randomness, Providence, and the Multiverse." In Abrahamic Reflections on Randomness and Providence, 85–105. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-75797-7_5.

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AbstractWe review the role of chance, contingency, necessity, and providence among cosmic properties. The materialistic worldview in which the patterns of the universe result from random processes and humans exist in an “indifferent” universe is examined, as well as the current evidence for a fine-tuned universe. The multiverse is the preferred solution to explain why the properties of our observable universe appear to be bio-friendly. It reintroduces randomness and contingency into the cosmic process. However, this explanation comes at the cost of non-testability. And it is argued that there is no certainty about the evacuation of some kind of remaining fine-tuning in the (hypothetical) fundamental law that rules the multiverse.
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Loke, Andrew. "Fine-Tuning and Order of our Universe." In The Teleological and Kalam Cosmological Arguments Revisited, 141–94. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-94403-2_4.

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AbstractVarious properties of the universe have been suggested as indicative of the work of ‘a designer’. I focus on two such properties: ‘fine-tuning’ and ‘the existence of orderly patterns of events which can be described by advanced mathematics’. While various forms of design inference have been suggested, for example, analogical, Bayesian, likelihoodist, and abductive, sceptics such as Roger Penrose objected that there could be alternative explanations which we still do not know of, while appealing to God can be used to solve any problem, so it is not helpful. This concern can be addressed by devising an original deductive argument which demonstrates that the following are the only possible categories of hypotheses—(i) Chance, (ii) Regularity, (iii) Combinations of Regularity and Chance, (iv) Uncaused, and (v) Design, and excluding all the alternative categories such that the conclusion of design follows logically (rather than being appealed to solve a problem). In response to the worry that previously unconsidered hypotheses could be lumped together in catch-all baskets, I show that there is an essential feature of each category (except design) which renders it unlikely as an explanation for the fine-tuning and order, beginning with (i)–(iii) and engaging with the multiverse hypothesis and Smolin’s evolutionary hypothesis.
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Dye, Heather A. "A multiverse of knots." In An Invitation to Knot Theory, 35–48. Chapman and Hall/CRC, 2018. http://dx.doi.org/10.1201/9781315370750-3.

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"Beyond Falsifiability: Normal Science in a Multiverse." In Why Trust a Theory?, 300–314. Cambridge University Press, 2019. http://dx.doi.org/10.1017/9781108671224.020.

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Conference papers on the topic "Multiverse theory"

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Littwin, Etai, and Lior Wolf. "Complexity of multiverse networks and their multilayer generalization." In 2016 23rd International Conference on Pattern Recognition (ICPR). IEEE, 2016. http://dx.doi.org/10.1109/icpr.2016.7899662.

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Tsujikawa, Shinji. "Dark energy in the most general scalar-tensor theories and their observational constraints." In MULTIVERSE AND FUNDAMENTAL COSMOLOGY: Multicosmofun '12. AIP, 2013. http://dx.doi.org/10.1063/1.4791738.

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