Parker’s hydrodynamic isothermal solar wind model is extended to apply for a more realistic polytropic gas flow that can be caused by a variable extended heating of the corona. A compatible theoretical formulation is given and detailed numerical and systematic asymptotic theoretical considerations are presented. The polytropic conditions favor an enhanced conversion of thermal energy in the solar wind into kinetic energy of the outward flow and are hence shown to enhance the acceleration of the solar wind, thus indicating a quicker loss of the solar angular momentum
International audienceAbstract We utilize observations from the Parker Solar Probe (PSP) to study th...
Aims.We model a hydrogen-helium solar wind originating in funnels, regions of rapid flux tube expan...
A two-fluid, one-dimensional solar wind model is used to explore how the change in the expansion of ...
The solar wind fills the heliosphere and is the background medium in which coronal mass ejections pr...
The paper analyses the fluid dynamical models that have been constructed to describe the solar wind ...
Spherically symmetric hydrodynamical outflows accelerated thermally in the vicinity of a compact obj...
International audienceAbstract Statistical classification of the Helios solar wind observations into...
Observations of solar wind temperatures near the Earth indicate that heating of the solar wind plasm...
Data from the Helios 1 spacecraft have been used to determine an empirical value for the polytropic ...
A polytropic process describes the transition of a fluid from one state to another through a specifi...
A new class of one-dimensional solar wind models is developed within the general polytropic, single-...
It is well known that the solar wind plasma consists of primary ions of solar coronal origin and s...
International audienceAbstract We utilize observations from the Parker Solar Probe (PSP) to study th...
Aims.We model a hydrogen-helium solar wind originating in funnels, regions of rapid flux tube expan...
A two-fluid, one-dimensional solar wind model is used to explore how the change in the expansion of ...
The solar wind fills the heliosphere and is the background medium in which coronal mass ejections pr...
The paper analyses the fluid dynamical models that have been constructed to describe the solar wind ...
Spherically symmetric hydrodynamical outflows accelerated thermally in the vicinity of a compact obj...
International audienceAbstract Statistical classification of the Helios solar wind observations into...
Observations of solar wind temperatures near the Earth indicate that heating of the solar wind plasm...
Data from the Helios 1 spacecraft have been used to determine an empirical value for the polytropic ...
A polytropic process describes the transition of a fluid from one state to another through a specifi...
A new class of one-dimensional solar wind models is developed within the general polytropic, single-...
It is well known that the solar wind plasma consists of primary ions of solar coronal origin and s...
International audienceAbstract We utilize observations from the Parker Solar Probe (PSP) to study th...
Aims.We model a hydrogen-helium solar wind originating in funnels, regions of rapid flux tube expan...
A two-fluid, one-dimensional solar wind model is used to explore how the change in the expansion of ...