Research & Proposals
A collection of my scientific research papers and experimental proposals, including investigations into screened-gravity systems and particle straggling.
Here is a collection of my scientific research papers and experimental proposals.
Stationary Points in Yukawa-corrected N + 1 Maxwell Ring
This paper investigates the equilibrium landscape and zero-velocity geometry of an N + 1 body ring system under a Yukawa-modified gravitational potential. This model generalizes the classical Maxwell ring and Manev-type fields by introducing a finite-range interaction. Using a bisection-refined gradient search and JIT-compiled numerical frameworks, the paper computes stationary points for N = 3 to 100 across the parameter space.
Finding the Complex Permittivity as a Function of Energy Using Angular Straggling
2026 CERN Beamline for Schools Experimental Proposal
Straggling (Landau) functions describe the probability distribution of energy loss of charged particles traversing matter. In this proposal by our team, we measure the angular spread of particles after traversing a target and infer the underlying cross section, aiming to determine the complex dielectric constant of tungsten as a function of deposited energy to test the Fermi–Virtual Photon (FVP) model.
Characterization of and Shielding Against Single Event Effects (SEEs) in EEPROMs
2025 CERN Beamline for Schools Experimental Proposal
Electronics in space are continuously exposed to cosmic rays. Of particular concern are the induced Single Event Effects (SEEs) that arise when a high-energy particle produces a charge track within a semiconductor. This proposal outlines an experiment to characterize and investigate how various shielding materials can mitigate SEEs in EEPROMs, focusing on cost-effective protection.