Biography

Prof. Andrew Walcott Beckwith

Department of Physics, Chongqing University, China

Visiting Professor


Email: rwill9955b@gmail.com


Qualifications

2002, PhD, Texas center of superconductivity, USA

1996, Masters in Physics, University of Houston, USA

1991, Masters in applied math, numerical analysis, University of Arizona, Tucson, USA

1978, BA in Math, BA in Physics, University of California, Santa Cruz, USA


Publications (Selected)

Journals

  1. Andrew W. Beckwith (2023). Penrose suggestion as to pre-Planck-era black holes showing up in present universe data sets discussed, with a possible candidate as to GW radiation which may provide initial CMBR data. MG16, 1359-1371.
  2. Andrew W. Beckwith (2023). Does vacuum energy allow for computational “Bits” at the start of cosmological evolution, and their possible ties to torsion physics. J. Tensor Soc. (N.S.) 17 (2023) 60-67.
  3. Andrew W. Beckwith (2022). Review of tokamak physics and a way to get big bang GW conditions before the 10−26 reduction in frequency seen today, confirming e-fold values of 60 for inflation. MG15, 1888-1893.
  4. Andrew W. Beckwith (2022). Using “enhanced quantization” to bound the cosmological constant and quantum number n for production of 100 relic mini black holes. MG15, 818-823.
  5. Andrew W. Beckwith (2022). Linking dark energy and a Kaluza–Klein treatment of a graviton via the deceleration parameter Q(z) by quintessence? MG15, 1179-1184.
  6. Andrew W. Beckwith (2022). Structure formation in the early universe, the three-body problem, and gravity modification w.r.t. possible replacement of DE. MG15, 1239-1244.
  7. Andrew W. Beckwith (2019). How to obtain initial degrees of freedom for the early universe of about 1000, instead of 100, while preserving a uniformly increasing arrow of time due to entropy increase. J. Phys. Conf. Ser. 1275 (2019) 1, 012043.
  8. Andrew W. Beckwith (2019). How an induced Kerr–Newman black hole releases gravitational waves without a mini black hole explosion. J. Phys. Conf. Ser. 1275 (2019) 1, 012051.
  9. Andrew W. Beckwith (2018). Analyzing how enhanced quantization, as given by Klauder, affects a bound onthe cosmological constant. 53rd Rencontres de Moriond on Cosmology, 377-378.
  10. Andrew W. Beckwith (2017). Role of acceleration in the expansion of the universe and its influence on an early-universe modified version of the Heisenberg uncertainty principle. J. Phys. Conf. Ser. 880 (2017) 1, 012057.
  11. Andrew W. Beckwith (2017). Schrödinger equation in (pre-Planckian?) space–time early universe, with minimal distance, and minimum effective graviton mass. J. Phys. Conf. Ser. 880 (2017) 1, 012056.
  12. Andrew W. Beckwith (2017). Fifth-force potentials, compared to Yukawa modification of gravity for massive gravitons, to link gravitation, and NLED modified GR. MG14, 2631-2635.
  13. Andrew W. Beckwith (2017). Gedankenexperiment for initial temperature, particle count and entropy affected by initial D.O.F and fluctuations of metric tensor and the Riemannian–Penrose inequality, with applications. MG14, 2641-2645.
  14. Andrew W. Beckwith (2017). Refining the Unruh metric-tensor uncertainty principle for a lower bound to graviton mass as a compliment to the NLED modification of GR giving an upper bound to a graviton mass. MG14, 2769-2773.
  15. Andrew W. Beckwith (2017). DOES A GRAVITON GAS ACT LIKE A COSMOLOGICAL VACUUM STATE AND " COSMOLOGICAL " CONSTANT PARAMETER. Moriond Gravitation 2017, 301-302.
  16. A. W. Beckwith, S. S. Moskaliuk (2017). Generalized Heisenberg Uncertainty Principle in Quantum Geometrodynamics and General Relativity. Ukr. J. Phys. 62 (2017) 8, 727.
  17. Hao Wen, Fang-Yu Li, Jin Li, Zhen-Yun Fang, Andrew Beckwith (2016). Very high-frequency gravitational waves from magnetars and gamma-ray bursts. Chin. Phys. C 41 (2017) 12, 125101.
  18. Andrew W. Beckwith (2016). Nonlinear Electrodynamics Contributing To A Minimum Vacuum Energy, Cosmological Constant, Allowed In Early Universe Cosmology. 51st Rencontres de Moriond on Cosmology, 349-350.
  19. Andrew W. Beckwith (2014). Analyzing Black Hole Super-Radiance Emission of Particles/Energy from a Black Hole as a Gedankenexperiment to Get Bounds on the Mass of a Graviton. Adv. High Energy Phys. 2014 (2014) 230713.
  20. Andrew W. Beckwith (2015). Nonlinear electrodynamics and modification of initial singularities, and dark matter and dark energy affecting structure formation in the early and later universe. J. Phys. Conf. Ser. 626 (2015) 1, 012058.
  21. Andrew W. Beckwith (2015). Representing massive gravitons, as a way to quantify early universe magnetic field contributions to space-time, created by non linear electrodynamics. AIP Conf. Proc. 1648 (2015) 1, 290003.
  22. Andrew W. Beckwith (2015). Reviewing Grishchuk GW generator via Tokamak physics. 50th Rencontres de Moriond on Gravitation: 100 years after GR, 383-384.


Profile Details

https://orcid.org/0000-0002-6276-2970

https://inspirehep.net/authors/1023839

https://www.researchgate.net/profile/Andrew-Beckwith-2


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