Open Access Open Access  Restricted Access Subscription Access

An Open Review on Light Speed Expanding Hubble-Hawking Universe


Affiliations
1 Honorary faculty, I-SERVE, Survey no-42, Hitech city, Hyderabad-84, Telangana, India
2 Dept. of Nuclear Physics, Andhra University, Visakhapatnam-03, AP, India
 

We make an attempt to review our light speed expanding Hubble-Hawking model of cosmology with reference to cosmic age, temperature, curvature, angular velocity, various cosmological distances associated with galactic red shifts, galactic flat rotation speeds, galactic dark matter and galactic working radii.

Keywords

Planck scale; Big bang; Light speed expansion; Hubble-Hawking model.
User
Notifications
Font Size

  • Andrei C, Ij.jas A, Steinhardt PJ. Rapidly descending dark energy and the end of cosmic expansion. Proc. Natl. Acad. Sci. 2022;119(15):e2200539119.
  • Vavrycuk V. Universe opacity and Type Ia supernovae dimming. Mon. Not. R. Astron. Soc.: Lett. 2019.
  • Colin J, Mohayaee R, Rameez M, et al. Evidence for anisotropy of cosmic acceleration. Astron. Astrophys. 2019;631:L13.
  • Ijjas A, Steinhardt PJ. A new kind of cyclic universe. Phys. Lett. B. 2019;795:666-72.
  • Guo Q, Hu H, Zheng Z, et al. Further evidence for a population of dark-matter-deficient dwarf galaxies. Nat. Astron.2020;4(3):246-51.
  • Aalbers J, Akerib DS, Akerlof CW, et al. First dark matter search results from the LUX-ZEPLIN (LZ) experiment. arXiv preprint arXiv:2207.03764. 2022.
  • Ade PA, Aghanim N, Arnaud M, et al. Planck 2015 results-xiii. cosmological parameters. Astron. Astrophys. 2016;594:A13.
  • Seshavatharam UVS. Physics of rotating and expanding black hole universe. Prog. Phys. 2010;2:7-14.
  • Tatum ET, Seshavatharam UVS, Lakshminarayana S. The basics of flat space cosmology. Int. j. Astron. Astrophys. 2G15;5(G2):116.
  • Wan HY, Cao SL, Melia F, et al. Testing the Rh= ct universe jointly with the redshift-dependent expansion rate and angular-diameter and luminosity distances. Phys. Dark Universe. 2G19;26:1GG4G5.
  • Melia F. A comparison of the R h= ct and ACDM cosmologies using the cosmic distance duality relation. Mon. Not. R. Astron. Soc. 2018;481(4):4855-62.
  • Sultana J. The R h= ct universe and quintessence. Mon. Not. R. Astron. Soc. 2016;457(1):212-6.
  • Melia F. Fitting the Union2. 1 supernova sample with the Rh= ct universe. Astron. J. 2G12;144(4):11G.
  • Tatum ET, Seshavatharam UV. Flat Space Cosmology: A New Model of the Universe Incorporating Astronomical Observations of Black Holes, Dark Energy and Dark Matter. Universal-Publishers; 2021.
  • Burghardt R. Melia’s R h= ct Model Is by No Means Flat. J. Mod. Phys. 2G2G;11(G5):7G3.
  • Pinochet J. Hawking for beginners: a dimensional analysis activity to perform in the classroom. Phys. Educ. 2G2G;55(4):G45G18.
  • Lopez-Corredoira M. Tests and problems of the standard model in Cosmology. Found. Phys. 2017;47(6):711-68.
  • Seshavatharam UVS, Tatum ET, Lakshminarayana S. The Large Scale Universe as a Quasi Quantum White Hole. Int. Astron. Astrophys. Res. J. 2021:22-42.
  • Seshavatharam UVS, Lakshminarayana S. Concepts and results of a practical model of quantum cosmology. Mapana J. Sci. 2022;21(2):13-22.
  • Seshavatharam UVS, Lakshmanarayana S. Light Speed Expanding Hubble-Hawking Universe.
  • Seshavatharam UVS, Lakshminarayana S. A Biophysical Model of Growing Black Hole Universe Endowed with Light Speed Expansion and Power Law Super Gravity of Galactic Baryonic Matter Greater than 200 Million Solar Masses. J. Phys. Chem. Biophys. 2022;12:323.
  • Perlmutter S, Aldering G, Goldhaber G, et al. Measurements of Q and A from 42 high-redshift supernovae. Astrophys. J. 1999;517(2):565.
  • Sivaram C, Arun K, Rebecca L. MOND, MONG, MORG as alternatives to dark matter and dark energy, and consequences for cosmic structures. J. Astrophys. Astron. 2G2G;41(1):4.
  • Nielsen JT, Guffanti A, Sarkar S. Marginal evidence for cosmic acceleration from Type Ia supernovae. Sci. rep. 2016;6(1):1-8.
  • Dam LH, Heinesen A, Wiltshire DL. Apparent cosmic acceleration from type Ia supernovae. Mon. Not. R. Astron. Soc. 2017;472(1):835-51.
  • Milgrom M. A modification of the Newtonian dynamics as a possible alternative to the hidden mass hypothesis. Astrophys. J., Part 1 (ISSN GGG4-637X),1983;27G:365-7G.
  • Banik I, Zhao H. From galactic bars to the hubble tension: Weighing up the astrophysical evidence for milgromian gravity. Symmetry. 2022;14(7):1331.
  • Brownstein JR, Moffat JW. Galaxy rotation curves without nonbaryonic dark matter. Astrophys. J.2GG6;636(2):721.
  • Chae KH, Lelli F, Desmond H, et al. Testing the strong equivalence principle: detection of the external field effect in rotationally supported galaxies. Astrophys. J. 2G2G;9G4(1):51.
  • Hubble E. A relation between distance and radial velocity among extra-galactic nebulae. Proc. natl. acad. sci., 1929;15(3):168-73.
  • Seshavatharam UVS, Lakshminarayana S. Light speed expanding white hole universe having a red shift of [z/(1+ z)]. World Sci. News. 2021;162:87-101.
  • Hogg DW. Distance measures in cosmology. arXiv preprint astro-ph/9905116. 1999.
  • Seshavatharam UVS, Lakshminarayana S. On the role of cosmic mass in understanding the relationships among galactic dark matter, visible matter and flat rotation speeds. NRIAG J. Astron. Geophys. 2021;10(1):466-81.
  • Shen Z, Danieli S, van Dokkum P, et al. A tip of the red giant branch distance of 22.1±1.2 Mpc to the dark matter deficient galaxy NGC 1052-DF2 from 40 orbits of Hubble Space Telescope imaging. Astrophys. J. Lett. 2021;914(1):L12.
  • Ogle PM, Jarrett T, Lanz L, et al. A break in spiral galaxy scaling relations at the upper limit of galaxy mass. Astrophys. J. Lett. 2019;884(1):L11.
  • Ray S, Bagchi J, Dhiwar S, et al. Hubble Space Telescope Captures UGC 12591: Bulge/Disk Properties, Star Formation andMissing Baryons' Census in a Very Massive and Fast Spinning Hybrid Galaxy. arXiv preprint arXiv:2203.02885. 2022.
  • P.A. Zyla et al. (Particle Data Group), Prog. Theor. Exp. Phys. 2020, 083C01 (2021) and 2021 update.
  • Bernal JL, Smith TL, Boddy KK, et al. Robustness of baryon acoustic oscillation constraints for early-Universe modifications of A CDM cosmology. Phys. Rev. D. 2020;102(12):123515.
  • Seshavatharam UVS, Lakshminarayana S. Weak Interaction Dependent Super Gravity of Galactic Baryon Mass. J. Asian Sci. Res. 2022;12(3):146-55.
  • Deason AJ, Fattahi A, Frenk CS, et al. The edge of the Galaxy. Mon. Not. R. Astron. Soc. 2020;496(3):3929-42.
  • Bhattacharjee P, Chaudhury S, Kundu S. Rotation Curve of the Milky Way out to~ 200 kpc. Astrophys. J. 2014;785(1):63.
  • Chechin LM. Does the cosmological principle exist in the rotating universe?. Gravit. Cosmol. 2017;23:305-10.
  • Godel K. Rotating universes in general relativity theory. InProceedings Int. Congr. Math. Edited by LM Graves et al 1952:1:175.
  • Berman MS. A general relativistic rotating evolutionary universe. Astrophys. Space Sci. 2008;314(4):319-21.
  • Chapline G, Mazur P. Tommy Gold revisited: Why doesn’t the universe rotate?. InAIP Conf. Proc. 2006;822(1):160-5. Am. Inst. Phys.
  • Sivaram C, Arun K. Primordial rotation of the universe, hydrodynamics, vortices and angular momenta of celestial objects. Open Astron. J. 2012;5(1).
  • Shamir L. Asymmetry in Galaxy Spin Directions—Analysis of Data from DES and Comparison to Four Other Sky Surveys. Universe. 2022;8(8):397.
  • Shamir L. New evidence and analysis of cosmological-scale asymmetry in galaxy spin directions. J. Astrophys. Astron. 2022;43(1):24.
  • Korotky VA, Masar E, Obukhov YN. In the quest for cosmic rotation. Universe. 2020;6(1):14.
  • Friedman A. On the curvature of space. Gen. Relativ. Gravit. 1999;31(12):1991-2000.
  • Hawking, S.W. A Brief History of Time. Bantam Dell Publishing Group. New York. 1988.
  • Calcagni G, Di Luca MG, Fodran T. Lectures on classical and quantum cosmology. arXiv preprint arXiv:2202.13875. 2022 Feb 28.
  • Ashtekar A, Gupt B, Jeong D, et al. Alleviating the tension in the cosmic microwave background using Planck-scale physics. Phys. rev. lett. 2020;125(5):051302.
  • Bojowald M. Foundations of quantum cosmology. IOP Publishing; 2020.
  • Peebles PJ. Discovery of the hot Big Bang: What happened in 1948. Eur. Phys. J. H. 2014;39(2):205-23.
  • Di Valentino E, Melchiorri A, Silk J. Planck evidence for a closed Universe and a possible crisis for cosmology. Nat. Astron. 2G2G;4(2):196-2G3.
  • Ellis G, Larena J. The case for a closed universe. Astron. Geophys. 2G2G;61(1):1-38.
  • Handley W. Curvature tension: evidence for a closed universe. Phys. Rev. D. 2G21;1G3(4):LG413G1.
  • Wan Khee L G. Thesis: Modified Statistical Analysis of Type 1a Supernovae Data. Supervisor. Supervisor: Shao Chin Cindy Ng, National University of Singapore, 2018-2019.
  • Carmeli M, Hartnett JG, Oliveira FJ. The cosmic time in terms of the redshift. Found. Phys. Lett. 2GG6;19:277-83.
  • Croker KS, Zevin M, Farrah D, et al. Cosmologically coupled compact objects: a single-parameter model for LIGO-Virgo mass and redshift distributions. Astrophys. J. Lett. 2021;921(2):L22.
  • Onken CA, Lai S, Wolf C, et al. Discovery of the most luminous quasar of the last 9 Gyr. Publ. Astron. Soc. Aust. 2G22;39:eG37.

Abstract Views: 151

PDF Views: 0




  • An Open Review on Light Speed Expanding Hubble-Hawking Universe

Abstract Views: 151  |  PDF Views: 0

Authors

U.V.S. Seshavatharam
Honorary faculty, I-SERVE, Survey no-42, Hitech city, Hyderabad-84, Telangana, India
S. Lakshminarayana
Dept. of Nuclear Physics, Andhra University, Visakhapatnam-03, AP, India

Abstract


We make an attempt to review our light speed expanding Hubble-Hawking model of cosmology with reference to cosmic age, temperature, curvature, angular velocity, various cosmological distances associated with galactic red shifts, galactic flat rotation speeds, galactic dark matter and galactic working radii.

Keywords


Planck scale; Big bang; Light speed expansion; Hubble-Hawking model.

References