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[1]
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CMB, Hawking, Planck, and Hubble scale relations consistent with recent quantization of general relativity theory
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International Journal of Theoretical Physics,
2024 |
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[2]
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How the Flat Space Cosmology Model Correlates the Recombination CMB Temperature of 3000 K with a Redshift of 1100
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Journal of Modern Physics,
2024 |
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[3]
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Upsilon constants and their usefulness in Planck scale quantum cosmology
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Journal of Modern Physics,
2024 |
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[4]
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Planck length from cosmological redshifts solves the Hubble tension
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2024 |
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[5]
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The blackbody CMB temperature, luminosity, and their relation to black hole cosmology, compared to Bekenstein-Hawking luminosity
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2024 |
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[6]
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Extracting the Planck units as well as the Compton frequency from 580 type Ia supernovae redshifts consistent with quantized general relativity theory
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2024 |
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[7]
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The Photon Energy Density Parameter Ωγ of the Universe Exactly Derived
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2024 |
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[8]
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Extracting a cosmic age of 14.6 billion years from all 580 type Ia supernova redshifts in the Union2 database
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2024 |
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[9]
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God Time= Planck Time: Finally Detected! And Its Relation to Hubble Time
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Open Journal of Microphysics,
2024 |
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[10]
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Thermodynamical Metrics in General Relativity Theory
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2024 |
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[11]
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Friedmann Type Equations in Thermodynamical Form Lead to Much Tighter Constraints on the Energy Density of the Universe
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2024 |
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[12]
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How current CMB temperature related to cosmological redshift can be extracted from observations of 580 type Ia supernovae
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2024 |
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[13]
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How a Thermodynamic Version of the Friedmann Equation Appears to Solve the Early Galaxy Formation Problem
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2024 |
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[14]
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The black body CMB temperature Luminosity and its relation to black hole cosmology and comparison to Bekenstein-Hawking Luminosity
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2024 |
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[15]
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Solving the Hubble Tension by Extracting Current CMB Temperature from the Union2 Supernova Database
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2024 |
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[16]
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Black Hole Complementarity in Terms of the Outsider and Insider Perspectives
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Journal of Modern Physics,
2024 |
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[17]
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Wrong Definition and Wrong Implications of Cosmic Red Shift (Correction and Possible Solutions)
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Journal of Physics & …,
2024 |
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[18]
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A Solution to the Cosmological Constant Problem Using the Holographic Principle (A Brief Note)
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Journal of Modern Physics,
2024 |
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[19]
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Investigation of the Casimir Effect in the Hubble Universe and Black Holes
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2024 |
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[20]
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Solving the Hubble Tension Using the Union2 Supernova Database
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2024 |
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[21]
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CMB temperature related to cosmological red-shift
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2024 |
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[22]
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Formula for the CNB Temperature in Rh= ct cosmolgy
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2024 |
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[23]
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A Highly Speculative Note on the CNB Temperature
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2024 |
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[24]
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On deterministic quantum gravity from linear cosmology.
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2024 |
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[25]
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The hawking Hubble temperature as a minimum temperature, the Planck temperature as a maximum temperature and the CMB temperature as their geometric …
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Hal archive,
2023 |
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[26]
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Predicting High Precision Hubble Constant Determinations Based Upon a New Theoretical Relationship between CMB Temperature and H0
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2023 |
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[27]
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The Hawking temperature as a minimum temperature, the Planck temperature as the maximum temperature and the CMB temperature as a geometric mean …
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2023 |
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[28]
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Two Possible Solutions to the Vacuum Catastrophe
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2023 |
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[29]
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The Vacuum Catastrophe Solved by Taking into Account Hawking-Bekenstein Black Hole Entropy
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2023 |
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[30]
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The Vacuum Catastrophe Solved by Taking into Account Hawking-Bekenstein Black Hole Entropy as Well or Alternatively Mass Density Constrains from a New …
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2023 |
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[31]
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The CMB temperature as geometric mean gravitational potential energy and also its connection to the electrostatic force
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2023 |
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[32]
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The Hubble sphere, gravitational fluid, fluid mechanics and the Planck scale
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2023 |
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[33]
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The Hubble frequency and the Hawking temperature
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2023 |
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[34]
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Hypotethical CMB Particle and its Microwave Compton Wavelength
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2023 |
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[35]
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A practical model of growing and rotating black hole like universe
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World Scientific News,
2023 |
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[36]
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Planck Scale Quantum Cosmology Predicts the Temperature of the Cosmic Microwave Background
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2023 |
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[37]
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A Rotating Model of a Light Speed Expanding Hubble-Hawking Universe
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Physical Sciences Forum,
2023 |
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[38]
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Planck quantized bending of light leads to the CMB temperature
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Hal archive,
2023 |
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[39]
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How to predict the temperature of the CMB directly using the Hubble parameter and the Planck scale using the Stefan-Boltzman law
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2023 |
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[40]
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Asymmetry between Galaxy Apparent Magnitudes Shows a Possible Tension between Physical Properties of Galaxies and Their Rotational Velocity
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Symmetry,
2023 |
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[41]
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High precision Hubble constant determinations based upon a new theoretical relationship between CMB temperature and H0
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2023 |
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[42]
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Concepts and Results of a Practical Model of Quantum Cosmology.
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Mapana Journal of …,
2022 |
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[43]
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Concepts and results of a practical model of quantum cosmology
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Mapana Journal of …,
2022 |
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[44]
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A possible tension between galaxy rotational velocity and observed physical properties
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arXiv preprint arXiv:2212.04044,
2022 |
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[45]
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Light Speed Expanding Hubble-Hawking Universe
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2022 |
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[46]
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On the role of cosmic mass in understanding the relationships among galactic dark matter, visible matter and flat rotation speeds
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NRIAG Journal of …,
2021 |
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[47]
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Light speed expanding white hole universe having a red shift of [z/(1+ z)]
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World Scientific News,
2021 |
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[48]
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Flat Space Cosmology: A New Model of the Universe Incorporating Astronomical Observations of Black Holes, Dark Energy and Dark Matter
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2021 |
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[49]
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The Large Scale Universe as a Quasi Quantum White Hole
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2021 |
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[50]
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White Hole Cosmology-One Best Alternative for Standard Cosmology
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2021 |
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[51]
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An Integrated Model of a Light Speed Rotating Universe
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2020 |
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[52]
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Light Speed Expansion and Rotation of a Primordial Black Hole Universe having Internal Acceleration
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2020 |
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[53]
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Light Speed Expansion and Rotation of a Very Dark Machian Universe Having Internal Acceleration
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2020 |
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[54]
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Estimating galactic dark matter and redshift in Flat Space Cosmology
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2020 |
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[55]
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A Heuristic Model of the Evolving Universe Inspired by Hawking and Penrose
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2019 |
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[56]
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How the Dirac Sea Idea May Apply to a Spatially-Flat Universe Model (A Brief Review)
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2019 |
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[57]
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A Practical Model of Godel–Planck–Hubble–Birch Universe
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2019 |
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[58]
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Predicting Dark Energy Survey Results Using the Flat Space Cosmology Model
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2019 |
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[59]
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Toy model of evolving and spinning quantum cosmology–a review
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2018 |
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[60]
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Light speed expanding reversed black hole quantum cosmology
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2018 |
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[61]
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On the Eternal Role of Planck Scale in Machian Cosmology
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2018 |
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[62]
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How a Realistic Linear Rh = ct Model of Cosmology Could Present the Illusion of Late Cosmic Acceleration
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2018 |
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[63]
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Clues to the Fundamental Nature of Gravity, Dark Energy and Dark Matter
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2018 |
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[64]
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Temperature Scaling in Flat Space Cosmology in Comparison to Standard Cosmology
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2018 |
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[65]
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How a Realistic Linear Rh= ct Model of Cosmology Could Present the Illusion of Late Cosmic Acceleration
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2018 |
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[66]
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How the CMB Anisotropy Pattern Could Be a Map of Gravitational Entropy
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2018 |
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[67]
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Interpretation of Dark Energy in Evolving Quantum Cosmology
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2018 |
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[68]
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Why Flat Space Cosmology Is Superior to Standard Inflationary Cosmology
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2018 |
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[69]
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Flat Space Cosmology as a Model of Penrose's Weyl Curvature Hypothesis and Gravitational Entropy
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2018 |
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[70]
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Flat Space Cosmology as a Model of Light Speed Cosmic Expansion—Implications for the Vacuum Energy Density
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2018 |
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[71]
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Toy Model of Spinning Quantum Cosmology
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2017 |
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[72]
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On the possible role of Mach's principle and quantum gravity in cosmic rotation-A short communication
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2017 |
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[73]
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Richards Function in Animal Growth Analysis and Friedmann Equation in Space Expansion Analysis
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2017 |
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[74]
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Toy Model of Quantum Cosmology with Evolving Dark Energy
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Physical Science International Journal,
2017 |
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[75]
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Why Krogdahl's Flat Space-Time Cosmology Is Superior to General Relativity
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2017 |
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[76]
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Why the Road to Unification Likely Goes through Krogdahl's Relativity
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2017 |
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[77]
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Is dark energy–an alias of cosmic rotational kinetic energy
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International Journal of Advanced Astronomy,
2016 |
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[78]
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A comparative study on cosmic dark energy and rotational kinetic energy
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2016 |
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[79]
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On the Possible Role of Continuous Light Speed Expansion in Black Hole & Gravastar Cosmology
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Prespacetime Journal,
2016 |
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[80]
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Superluminal Expansion & Rotation in Redshift Independent Accelerating Quantum Cosmology
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2016 |
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[81]
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Is dark energy–an alias of cosmic rotational kinetic energy?
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2016 |
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[82]
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Quantum Cosmology vs. Observational Cosmology (A Simple, Curious and Advanced Approach)
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2016 |
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[83]
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A Supplement to Mathematical Structure Common to Animal Growth Analysis and Space Expansion Analysis
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2016 |
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[84]
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Toy model of Evolving Spherical Cosmology with Flatness, Angular Velocity, Temperature and Redshift
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Frontiers of Astronomy, Astrophysics and Cosmology,
2015 |
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[85]
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An insight on the (Hindu's) unified quantum cosmology
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International Journal of Advanced Astronomy,
2015 |
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[86]
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Flat space cosmology as a mathematical model of quantum gravity or quantum cosmology
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International journal of astronomy and astrophysics,
2015 |
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[87]
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Black Hole Cosmology with Propelling Lambda Term & Hindu Cosmic Age
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Prespacetime Journal,
2015 |
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[88]
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Applications of light speed expansion and gravitational self-energy density in black hole cosmology
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International Journal of Advanced Astronomy,
2015 |
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[89]
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Flat Space Cosmology as an Alternative to Lcdm Cosmology
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Frontiers of Astronomy, Astrophysics and Cosmology,
2015 |
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[90]
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Light speed rotating and halting Planck-Hubble-Hawking universe
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