Your search keyword '"Grayson, Christopher"' showing total 11 results

1. Nuclear Fusion Enhancement by Heavy Nuclear Catalysts

Author

Grayson, Christopher and Rafelski, Johann

Subjects

Physics - Plasma Physics, Astrophysics - Solar and Stellar Astrophysics, Nuclear Theory

Abstract

We seek to understand the effect of high electron density in the proximity of a heavy nucleus on the fusion reaction rates in a hot plasma phase. We investigate quantitatively the catalytic effect of gold ($Z=79$) ions embedded in an electron plasma created due to plasmonic focusing of high-intensity short laser pulses. Using self-consistent strong plasma screening, we find highly significant changes in the internuclear potential of light elements present nearby. For gold, we see a $14\,$keV change in the internuclear potential near the nuclear surface, independent of the long-distance thermal Debye-H\"uckel screening. The dense polarization cloud of electrons around the gold catalyst leads to a $\sim 1.5$ enhancement of proton-boron ($^{11}$B) fusion above $T=100\,$keV.

Published

2025

2. Quarks to Cosmos: Particles and Plasma in Cosmological evolution

Author

Rafelski, Johann, Birrell, Jeremiah, Grayson, Christopher, Steinmetz, Andrew, and Yang, Cheng Tao

Subjects

High Energy Physics - Phenomenology, Astrophysics - Cosmology and Nongalactic Astrophysics, Nuclear Theory, Physics - Plasma Physics

Abstract

We describe in the context of the particle physics (PP) standard model (SM) `PP-SM' the understanding of the primordial properties and composition of the Universe in the temperature range $130\GeV>T>20\keV$. The Universe evolution is described using FLRW cosmology. We present a global view on particle content across time and describe the different evolution eras using deceleration parameter $q$. We follow the arrow of time in the expanding and cooling Universe: After the PP-SM heavies $(t, h, W, Z)$ diminish in abundance below $T\simeq 50\GeV$, the PP-SM plasma in the Universe is governed by the strongly interacting Quark-Gluon content. Once the temperature drops below $T\simeq 150\MeV$, quarks and gluons hadronize into strongly interacting matter particles. Rapid disappearance of baryonic antimatter completes at $T_\mathrm{B}=38.2\MeV$. We study the ensuing disappearance of strangeness and mesons in general. We show that the different eras defined by particle populations are barely separated from each other with abundance of muons fading out just prior to $T=\mathcal{O}(2.5)\MeV$, the era of emergence of the free-streaming neutrinos. We discuss the two relevant fundamental constants controlling the decoupling of neutrinos. We subsequently follow the primordial Universe as it passes through the hot dense electron-positron plasma epoch. The high density of positron antimatter disappears near $T=20.3\keV$: Nuclear reactions occur in the presence of a highly mobile and relatively strongly interacting electron-positron plasma phase. We apply plasma theory methods to describe the strong screening effects between heavy dust particle (nucleons). We analyze the paramagnetic characteristics of the electron-positron plasma when exposed to an external primordial magnetic field., Comment: 189 pages review, includes 90 figure frames. Incluses key results from four PhD thesis and two dozen research papers. See Appendix A for these details. Reformatted for new widescreen of The European Physical Journal - Special Topics (EPJ ST) format with a few typos corrected

Published

2024

3. Self-consistent strong screening applied to thermonuclear reactions

Author

Grayson, Christopher, Yang, Cheng Tao, Formanek, Martin, and Rafelski, Johann

Subjects

Nuclear Theory, Astrophysics - Cosmology and Nongalactic Astrophysics, Physics - Plasma Physics

Abstract

Self-consistent strong plasma screening around light nuclei is implemented in the Big Bang nucleosynthesis (BBN) epoch to determine the short-range screening potential, $e\phi(r)/T \geq 1$, relevant for thermonuclear reactions. We numerically solve the non-linear Poisson-Boltzmann equation incorporating Fermi-Dirac statistics adopting a generalized screening mass to find the electric potential in the cosmic BBN electron-positron plasma for finite-sized $^4$He nuclei as an example. Although the plasma follows Boltzmann statistics at large distances, Fermi-Dirac statistics is necessary when work performed by ions on electrons is comparable to their rest mass energy. While strong screening effects are generally minor due to the high BBN temperatures, they can enhance the fusion rates of high-$Z>2$ elements while leaving fusion rates of lower-$Z\le 2$ elements relatively unaffected. Our results also reveal a pronounced spatial dependence of the strong screening potential near the nuclear surface. These findings about the electron-positron plasma's role refine BBN theory predictions and offer broader applications for studying weakly coupled plasmas in diverse cosmic and laboratory settings., Comment: 16 pages, 5 figures, typeset using LATEX default style in AASTeX631

Published

2024

4. Electron-positron plasma in BBN: damped-dynamic screening

Author

Grayson, Christopher, Yang, Cheng Tao, Formanek, Martin, and Rafelski, Johann

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology, Nuclear Theory, Physics - Plasma Physics

Abstract

We characterize in detail the very dense $e^- e^+ \gamma$ plasma present during the Big-Bang Nucleosynthesis (BBN) and explore how it is perturbed electromagnetically by \lq\lq impurities, {\it i.e.\/}, spatially dispersed protons and light nuclei undergoing thermal motion. The internuclear electromagnetic screened potential is obtained (analytically) using the linear response approach, allowing for the dynamic motion of the electromagnetic field sources and the damping effects due to plasma component scattering. We discuss the limits of the linear response method and suggest additional work needed to improve BBN reaction rates in the primordial Universe. Our theoretical methods to describe the potential between charged dust particles align with previous studies on planetary and space dusty plasma and could have significant impact on interpretation of standard cosmological model results., Comment: 28 pages and 6 figures, version conforms with in press Annals of Physics

Published

2023

5. Dynamic Magnetic Response of Quark-Gluon Plasma to Electromagnetic Fields

Author

Grayson, Christopher, Formanek, Martin, Rafelski, Johann, and Mueller, Berndt

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We investigate the electromagnetic response of a viscous quark-gluon plasma in the framework of the relativistic Boltzmann equation with current conserving collision term. Our formalism incorporates dissipative effects at all orders in linear response to the electromagnetic field while accounting for the full space- and time-dependence of the perturbing fields. As an example, we consider the collision of two nuclei in a stationary, homogeneous quark-gluon plasma. We show that for large collision energies the induced magnetic fields are governed by the response of quark-gluon plasma along the light-cone. In this limit we derive an analytic expression for the magnetic field along the beam axis between the receding nuclei and show that its strength varies only weakly with collision energy for $\sqrt{s_\mathrm{NN}} \ge 30\,$GeV., Comment: 13 pages, 7 figures

Published

2022

6. Current-Conserving Relativistic Linear Response for Collisional Plasmas

Author

Formanek, Martin, Grayson, Christopher, Rafelski, Johann, and Müller, Berndt

Subjects

Physics - Plasma Physics, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Solar and Stellar Astrophysics, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We investigate the response of a relativistic plasma to electromagnetic fields in the framework of the Boltzmann equation incorporating a collision term in the relaxation rate approximation selected in a form assuring current conservation. We obtain an explicit solution for the linearized perturbation of the Fermi-Dirac equilibrium distribution in terms of the average relaxation rate $\kappa$. We study the resulting covariant, gauge invariant, and current conserving form of the polarization tensor in the ultrarelativistic and non-relativistic limits. We evaluate the susceptibility in the ultrarelativistic limit and explore their dependence on $\kappa$. Finally, we study the dispersion relations for the longitudinal and transverse poles of the propagator. We show that for $\kappa> 2\omega_p$, where $\omega_p$ is the plasma frequency, the plasma wave modes are overdamped. In the opposite case, $\kappa \ll \omega_p$, the propagating plasma modes are weakly damped., Comment: 14 pages, 9 figures

Published

2021

7. Risk of Periprosthetic Joint Infection in Patients With Ipsilateral Infected Arthroplasties

Author

Wetzel, Robert M., Ayala, Giovanni A., Grayson, Christopher W., Miranda, Michael A., Simon, Peter, and Lyons, Steven T.

Published

2024

8. The Watson Extraction System for removal of well-fixed femoral stems: A retrospective review of 10 cases

Author

Salomon, Kevin, Shen, Victor, Sullivan, Alex, Grayson, Christopher, Lyons, Steven, and Palumbo, Brian T.

Published

2023

9. Dense Relativistic Matter-Antimatter Plasmas

Author

Su, Shufang, Meinel, Stefan, Varnes, Erich, Rutherfoord, John, Grayson, Christopher Miller, Su, Shufang, Meinel, Stefan, Varnes, Erich, Rutherfoord, John, and Grayson, Christopher Miller

Abstract

The primary motivation for this research is to explore the strong electromagnetic fields generated during heavy ion collisions. These fields are among the strongest in the natural world, with a magnetic field of approximately $|B| \approx 10^{14}\,$T and an electric field of around $|E| \approx 10^{23}\,$V/m, in the collision of gold nuclei at the Relativistic Heavy Ion Collider. Understanding the conductive properties of the quark-gluon plasma (QGP) formed between the colliding ions is essential to describing these huge electromagnetic fields. To analyze the influence of QGP polarization on these fields, we developed the covariant kinetic theory detailed in this dissertation. Dense relativistic matter-antimatter plasmas are states of matter prevalent in extreme astrophysical environments and achievable through high-energy particle collisions. This dissertation studies these plasmas by developing a covariant kinetic theory with collisional scattering, delving into the linear responses of dense electron-positron and quark-gluon plasmas to electromagnetic fields, elucidating some underlying mechanisms governing their behavior. We begin by solving the kinetic theory for plasma response, considering spatial and temporal dispersion, focusing on electron-positron plasmas. We then discuss how the covariant polarization tensor, incorporating collisional damping, influences the self-consistent electromagnetic fields within the medium, particularly highlighting the dynamics and damping within the plasma. We then extend our investigation to quark-gluon plasma, emphasizing the magnetic field response during heavy ion collisions. By examining the ultrarelativistic electromagnetic polarization tensor using different conductivity models, we find that the conductivity evaluated on the light-cone accurately describes the evolution of magnetic fields in QGP during heavy ion collisions. We use this insight to provide an analytic formula predicting the freeze-out magnetic field in the

Published

2024

10. Applications of Optimal Subspace Estimation

Author

Grayson, Christopher and Grayson, Christopher

Abstract

Optimal Subspace Estimation (OSE) is a technique for estimating the signal subspace of a noisy data matrix or covariance matrix using a specific structure known as shift-invariance to generate an accurate estimate. For the applications in this thesis, the datasets are generated using a line array of sensors and multiple snapshots to produce data which should have the desired structure. The OSE algorithm exploits this structure in the data matrix in order to generate an estimate of the underlying noise-free signal subspace. Two applications have been chosen where the covariance matrices of the signal data should exhibit this desired structure. The applications are common signal processing subjects known as Adaptive Beamforming and Space-Time Adaptive Processing (STAP). OSE is an ideal estimation method for the application of Adaptive Beamforming. It is capable of achieving performance better than a commonly used algorithm known as Dominant Mode Rejection (DMR) while using orders of magnitude fewer snapshots. The OSE algorithm stands out in its ability to quickly approach the Cramer-Rao bound with many fewer snapshots of data. This is especially true when the line array of sensors is able to be carefully calibrated. Results are obtained by multiple simulations that outline the overall performance of theoretical data and test the robustness of the chosen algorithms. The application of Space-Time Adaptive Beamforming is chosen because it is essentially a two-dimensional adaptation of the Adaptive Beamforming example. The data matrix now contains angle and timing information which becomes increasingly difficult to generate a good estimate as real world physics are applied to the model. Processing this data quickly becomes computationally inefficient and requires a modified OSE algorithm know as Subspace Averaging (SSA) was needed. With theoretical data a lower bound is quickly approached but like the algorithms used for comparison, practical results are not easily achiev

Published

2016

11. Fine-Grain Document Access Modeling and Monitoring

Author

GEORGIA TECH RESEARCH CORP ATLANTA, Pu, Calton, Grayson, Christopher, GEORGIA TECH RESEARCH CORP ATLANTA, Pu, Calton, and Grayson, Christopher

Abstract

This project builds software tools to store documents in the PPS (Partial Persistent Sequence) system, monitor accesses to PPS documents, and analyze the access patterns to find cyber insider attacks. PPS uses a simple API access authorization scheme to thwart direct data transfer cyber insider attacks. A combination of fine-grained access monitoring data and statistical analysis on combined sub-sessions supports the effective detection (and prevention) of next generation cyber insider attacks that only steal minimized and targeted data transfers through legitimate APIs.

Published

2012