The WiggleZ Dark Energy Survey: the transition to large-scale cosmic homogeneity

Scrimgeour, Morag; Davis, Tamara M.; Blake, Chris; James, J. Berian; Poole, Gregory B.; Staveley‐Smith, L.; Brough, Sarah; Colless, Matthew; Contreras, Carlos; Couch, Warrick J.; Croom, S. M.; Croton, Darren J.; Drinkwater, Michael J.; Forster, Karl; Gilbank, David; Gladders, M. D.; Glazebrook, Karl; Jelliffe, Ben; Jurek, Russell J.; Li, I-hui; Madore, Barry F.; Martin, Chris; Pimbblet, Kevin A.; Pracy, Michael; Sharp, Robert; Wisnioski, Emily; Woods, David; Wyder, Ted K.; Yee, H. K. C.

doi:10.1111/j.1365-2966.2012.21402.x

Cited by 197 publications

(223 citation statements)

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“…The recent data, reported in the Monthly Notices of the Royal Astronomical Society ("The WiggleZ Dark Energy Survey: the transition to large-scale cosmic homogeneity"), disprove the hierarchical model in which it is argued, by some theorists, that the entire universe never becomes homogenous and that matter is clustered on ever larger scales, much like one of Mandelbrot's famous fractals. The finding is considered to be extremely significant for cosmology [16].…”

Section: Preliminariesmentioning

confidence: 98%

“…Thus, the total intrinsic redshift that the photon acquires during a complete transit of the cosmic gravity well is z GC = 2×0.0067 = 0.0134 (16) What happens during the photon's propagation in the interior of the cluster? Photons that penetrate the cloud-cluster, of our thought experiment earlier, without being intercepted or diverted would, according to the velocity-differential principle, become blueshifted.…”

Section: Inbound Photonmentioning

confidence: 99%

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Cosmic Redshift in the Nonexpanding Cellular Universe: Velocity-Differential Theory of Cosmic Redshift

Ranzan¹

2014

AJAA

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A review of the traditional possible causes of cosmic redshift -namely Doppler, expanding vacuum, gravitational, and tired light-is presented along with a discussion of why they failed. A new cosmic redshift mechanism is constructed based on a non-mass, non-energy, space medium (which serves as the luminiferous substrate) and the DSSU cellular cosmology (a remarkably natural problem-free cosmology). The cosmic redshift is shown to be a velocity-differential effect caused by a flow differential of the space medium. Furthermore, the velocity-differential redshift/effect is shown to be part of a much broader unification, since the very mechanism that causes the gravitation effect and sustains the Universe's gravity-cell structure is also the mechanism that causes the λ elongation manifesting as the cosmic redshift. Agreement with the verifiable portion of the redshift-distance graph (z ≤ 5) is outstanding. The main point is that intrinsic spectral shift occurs with a transit across/through any gravity well (sink). It is caused by the difference in propagation velocity between the axial ends of the photon or wave packet. Which, in turn, is caused by the difference in velocity of the aether flow, the flow differential of the aether, that occurs throughout a gravity well. And here the causal chain is linked to gravity: the change in velocity of the aether flow is what produces the effect of gravitation. The acceleration of the aether flow is the manifestation of gravity.

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Section: Preliminariesmentioning

confidence: 98%

Section: Inbound Photonmentioning

confidence: 99%

Cosmic Redshift in the Nonexpanding Cellular Universe: Velocity-Differential Theory of Cosmic Redshift

Ranzan¹

2014

AJAA

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“…O Princípio Cosmológico permaneceu apenas uma hipótese inteligente até que dados empíricos sólidos confirmando a homogeneidade e isotropia em grande escala fossem finalmente obtidos no final do século XX [11]. Pesquisas sugerem que o Universo passa a ser realmente homogêneo e isotrópico em escalas superiores a 100Mpc [6,12]; em escalas menores existem grandes inomogeneidades, como galáxias, aglomerados e superaglomerados de galáxias.…”

Section: Geometria Dinâmica E Os Componentes Do Fluido Cosmológicounclassified

Estimando parâmetros cosmológicos a partir de dados observacionais

Neto

2017

Rev. Bras. Ensino Fís.

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Neste trabalho são realizadas análises estatísticas capazes de estimar significativamente os valores atuais de alguns dos principais parâmetros cosmológicos, em particular, a taxa de expansão do Universo H0 (Constante de Hubble), a densidade de matéria Ω0,m, a densidade de energia escura Ω 0,Λ , a idade do Universo t0 e o parâmetro de desaceleração q0. Além disso, são abordados observáveis importantes como as Oscilações Acústicas dos Bárions e o Parâmetro de Hubble, além do Método Qui-quadrado e alguns conceitos e equações básicas da Cosmologia. A partir da descrição detalhada apresentada, objetiva-se dar uma ideia para os não especialistas de como estes valores podem ser obtidos a partir de dados observacionais disponíveis na literatura. Porúltimo,é realizado uma comparação dos resultados obtidos neste trabalho com os obtidos por grandes grupos internacionais como a Planck Collaboration e o WMAP. Os resultados são bem restritivos e em acordo com os estimados pela Planck Collaboration e o WMAP. Palavras-chave: Modelo ΛCDM, Parâmetros Cosmológicos, Constante de Hubble, Oscilações Acústicas dos Bárions, Método Qui-quadrado.In this work, it is performed statistical analyzes capable of estimating the current value of some of the main cosmological parameters, in particular, the rate of expansion of the Universe H0 (Hubble Constant), the density of matter Ω0,m, the density of dark energy Ω 0,Λ , the age of the Universe t0 and the deceleration parameter q0. In addition, it is discussed important observables as the Baryon Acoustic Oscillations and the Hubble Parameter, besides the Chi-square Method and some basic concepts and equations of Cosmology. From the detailed description presented it is intended to give an idea to non-specialists of how these values can be obtained from observational data available in the literature. Lastly it is performed a comparison of the results obtained in this work with those obtained by large international groups as the Planck Collaboration and the WMAP. The results are very restrictive and in agreement with those estimated by Planck Collaboration and the WMAP. Keywords: ΛCDM Model, Cosmological Parameters, Hubble Constant, Baryon Acoustic Oscillations, Chi-square Method. IntroduçãoHoje, a Cosmologia pode ser definida como sendo a ciência que estuda a origem, estrutura e a evolução do Universo. Seu principal objetivoé entender como o Universo se formou, porque possui as características observadas hoje e saber como o mesmo será no futuro.O surgimento da Cosmologia moderna se deu a partir do desenvolvimento da teoria da Relatividade Geral (RG), publicada por Einstein em 19151 . Essa teoriaé fundamental para construir um modelo cosmológico, poiś e a teoria gravitacional que melhor lida com os paradoxos * Endereço de correspondência: givalpordeus@hotmail.com. 1 Detalhes sobre a história da Cosmologia nessesúltimos 100 anos, seus maiores avanços e suas principais questões ainda em aberto, são encontrados na referência [1] associados a um espaço que se estende ao infinito e que melhor explica ...

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“…In 2012, Scrimgeour et al conclusively demonstrated that the large scale structure of the universe beyond the scale of approximately 70 MPC / hours, was close to the value found by . ueir s [7].…”

Section: International Letters Of Chemistry Physics and Astronomy Vomentioning

confidence: 99%

Orderly Disorder in Modern Physics

Davood

2015

ILCPA

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The WiggleZ Dark Energy Survey: the transition to large-scale cosmic homogeneity

Cited by 197 publications

References 95 publications

Cosmic Redshift in the Nonexpanding Cellular Universe: Velocity-Differential Theory of Cosmic Redshift

Cosmic Redshift in the Nonexpanding Cellular Universe: Velocity-Differential Theory of Cosmic Redshift

Estimando parâmetros cosmológicos a partir de dados observacionais

Orderly Disorder in Modern Physics

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