Dr. Andrew Walcott Beckwith

Department of physics

Chongqing University, China

visiting associate 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)

1. Beckwith, A.W. (2018) Using “Enhanced Quantization” to Bound the Cosmological Constant, and Computing Quantum Number n for Production of 100 Relic Mini lack Holes in a Spherical Region of mergent Space-Time. Journal of High Energy Physics, Gravitation and Cosmology, 4, 549-566.
2. Beckwith, A.W. (2018) How a Minimum Time Step and Formation of Initial Causal Structure in Space-Time Is Linked to an Enormous Initial Cosmological Constant. Journal of High Energy Physics, Gravitatio and Cosmology, 4, 541-548.
3. Beckwith, A. W. (2018) Calculating the Number of Universes in a Multiverse from First Principles with Linkage to Vacuum Energy and a Relationship with Nonlinear Early Universe Fields. And the Early Universe B FieldConnection to Non-Zero Graviton Mass. Journal of High Energy Physics, Gravitation and Cosmology, 4, 519-528.
4. Beckwith, A.W. (2018) Symmetries in Evolving Space-Time and Their Connection to High-Frequency Gravitational Wave Production. Journal of High Energy Physics, Gravitation and Cosmology, 4, 492-503.
5. Beckwith, A.W. (2018) How Does a Setting of the Vacuum Energy Density, as Given Today, Lead to an Initial Hubble Radius for the Early Universe, i.e. How Does the Early Universe Partly Mimic a Black Hole? Journal of High Energy Physics, Gravitation and Cosmology, 4, 354-360.
6. Beckwith, A.W. (2017) Using Barbour’s Ephemeris Time, and Padmanabhan’s Inflaton Value, plus Will’s Massive Graviton Velocity to Isolate Rest Energy of Massive Graviton as Compared to Racetrack Inflation Results of Graviton Physics and Modified Wheeler de Witt Results of Wormhole Physics. Journal of High Energy Physics, Gravitation and Cosmology, 3, 754-775.
7. Beckwith, A.W. (2017) The Transition from Pre-Octonionic to Octonionic Gravity and How It May Be Pertinent to a Re-Do of the HUP for Metric Tensors. Journal of High Energy Physics, Gravitation and Cosmology, 3, 727-753.
8. Beckwith, A.W. (2017) Pre-Octonionic to Octonionic Gravity and Could Kinetic Energy Be Larger than Potential Energy before Inflation? Journal of High Energy Physics, Gravitation and Cosmology, 3, 693-707.
9. Beckwith, A.W. (2017) Upper Bound in Change in Initial Value for “Time Component” of Pre Planckian Metric Tensor, for a Cosmological “Constant” Universe. Journal of High Energy Physics, Gravitation and Cosmology, 3, 657-662.
10. Beckwith, A.W. (2017) Gedanken Experiment for B Field Contributions to Initial Conditions for Relic Graviton Production Based upon an Initial Inflaton Value. Journal of High Energy Physics, Gravitation and Cosmology, 3, 651-656.
11. Beckwith, A.W. (2016) Examination of a Multiple Universe Version of the Partition Function of the Universe, Based upon Penrose’s Cyclic Conformal Cosmology. Leading to Uniform Values of (Planck’s Constant) and Invariant Physical Laws in Each Universe of the “Multiverse”. Journal of High Energy Physics, Gravitation and Cosmology, 2, 571-580.
12. Beckwith, A.W. (2016) Gedanken Experiment for Looking at δgtt for Initial Expansion of the Universe and Influence on HUP via Dynamical Systems, with Positive Pre-Planckian Acceleration. Journal of High Energy Physics, Gravitation and Cosmology, 2, 531-545.
13. Beckwith, A.W. (2016) Linkage of Classical Mechanical (CM) Geometry (3 Dimensional) and Quantum Mechanical (QM) Geometry (2 Dimensional) via Hopf Mapping and Its Implications for Relic Gravitational Wave (GW) Power Production. Journal of High Energy Physics, Gravitation and Cosmology, 2, 447-456.