Your search keyword '"Georgios Nicolaou"' showing total 2 results

1. The Fluid-like and Kinetic Behavior of Kinetic Alfvén Turbulence in Space Plasma.

Author

Honghong Wu, Daniel Verscharen, Robert T. Wicks, Christopher H. K. Chen, Jiansen He, and Georgios Nicolaou

Subjects

PLASMA Alfven waves, SPACE plasmas, TURBULENCE, MAGNETOHYDRODYNAMICS, COSMIC magnetic fields, COLLISION theory (Chemistry), POLARIZATION (Nuclear physics), SOLAR-terrestrial physics

Abstract

Kinetic Alfvén waves (KAWs) are the short-wavelength extension of the magnetohydrodynamics Alfvén-wave branch in the case of highly oblique propagation with respect to the background magnetic field. Observations of space plasma show that small-scale turbulence is mainly KAW-like. We apply two theoretical approaches, a collisional two-fluid theory and a collisionless linear kinetic theory, to obtain predictions for the KAW polarizations depending on βp (the ratio of the proton thermal pressure to the magnetic pressure) at the ion gyroscale in terms of fluctuations in density, bulk velocity, and pressure. We perform a wavelet analysis of Magnetospheric Multiscale magnetosheath measurements and compare the observations with both theories. We find that the two-fluid theory predicts the observations better than the kinetic theory, suggesting that the small-scale KAW-like fluctuations exhibit a fluid-like behavior in the magnetosheath although the plasma is weakly collisional. We also present predictions for the KAW polarizations in the inner heliosphere that are testable with Parker Solar Probe and Solar Orbiter. [ABSTRACT FROM AUTHOR]

Published

2019

2. Limits on the Contribution of Endogenic Radiolysis to the Presence of Molecular Oxygen in Comet 67P/Churyumov–Gerasimenko.

Author

Alexis Bouquet, Olivier Mousis, Benjamin Teolis, Georgios Nicolaou, Ozge Ozgurel, Francoise Pauzat, Yves Ellinger, Thomas Ronnet, and J. Hunter Waite Jr

Subjects

RADIOLYSIS, OXYGEN, RADIOISOTOPES, COSMIC abundances, CHURYUMOV-Gerasimenko comet

Abstract

Radiolytic production has been proposed as a potential source for the molecular oxygen observed in comet 67P/Churyumov–Gerasimenko. Radiolysis can be exogenic or endogenic, the latter due to radionuclides present in the dust constitutive of the comet nucleus. We investigated the possibility of forming a significant amount of molecular oxygen through endogenic radiolysis. We applied a model of radiolytic production, developed for an Earth rock–water mixture, and improved it to account for the effect of the size of a radionuclide-bearing grain on the net radiation deposited in its ice mantle. We calculated the possible production of molecular oxygen considering the available experimental values of radiolytic yields. We found that endogenic radiolysis cannot account for the totality of the 3.8% (relative to water) O2 abundance derived from the ROSINA observations, with an end member case of our model producing at most a 1% abundance. By contrast, we predict H2O2 production leads to an abundance up to two orders of magnitude above observed values. [ABSTRACT FROM AUTHOR]

Published

2018