21 research outputs found
Neutrino Flavor Transitions as Mass State Transitions
Experiments have shown that transitions occur between electron neutrino, muon neutrino, and tau neutrino flavors. Some experiments indicate the possible existence of a fourth neutrino known as the sterile neutrino. The question arises: do all neutrino flavors participate in transitions between flavors? These transitions are viewed as mass state transitions in parametrized relativistic dynamics (PRD). PRD frameworks have been developed for neutrino flavor transitions associated with the mixing of two mass states or the mixing of three mass states. This paper presents an extension of the framework to neutrino flavor transitions associated with the mixing of four mass states
Comparative Analysis of Jüttner’s Calculation of the Energy of a Relativistic Ideal Gas and Implications for Accelerator Physics and Cosmology
Jüttner used the conventional theory of relativistic statistical mechanics to calculate the energy of a relativistic ideal gas in 1911. An alternative derivation of the energy of a relativistic ideal gas was published by Horwitz, Schieve and Piron in 1981 within the context of parametrized relativistic statistical mechanics. The resulting energy in the ultrarelativistic regime differs from Jüttner’s result. We review the derivations of energy and identify physical regimes for testing the validity of the two theories in accelerator physics and cosmology
Tachyon Behavior Due to Mass-State Transitions at Scattering Vertices
A particle beam-thin foil scattering model is updated within the context of parametrized relativistic quantum theory (pRQT). This paper focuses on the creation, annihilation, and detection of tachyons when a beam of particles scatters off a thin foil. Improved calculation procedures and recent data are used to update model calculations for a pion-proton system
Decline Curve Analysis of Shale Oil Production Using a Constrained Monte Carlo Technique
Shale oil production from the Bakken shale and the Eagle Ford shale was analyzed using decline curve analysis and a constrained Monte Carlo technique. The purpose of the paper is to provide a set of parameters that can be used to initialize a Monte Carlo analysis of shale oil production using a selection of decline curves. The parametersare obtained by matching shale oil production for a set of wells in the Eagle Ford shale and the Bakken shale