Add to ORKGPresent theories suggest two different classes of excitation mechanisms which may be responsible for the observed amplitudes of solar p-mode oscillations—self-excitation of the modes (e.g. the κ mechanism), and stochastic excitation by turbulent convection. I discuss here the agreement and disagreement between the predictions of these two mechanisms and the observed mode amplitudes and linewidths
International audienceContext: Detection of solar gravity modes remains a major challenge to our und...
We investigate the frequency dependence of the power spectral density of low-degree solar p modes by...
Excitation of solar-like oscillations is attributed to turbulent convection and takes place at the u...
International audienceThe amplitude of solar-like oscillations results from a balance between excita...
Solar p-mode oscillations are excited by stochastic, non-adiabatic gas pressure fluctuations, which ...
We present a formalism for investigating the interaction between p-mode oscillations and convection ...
The stochastic excitation of solar oscillations due to turbulent convection is reviewed. A number of...
Hydrodynamical, 3D simulations of the outer layers of the Sun and α Cen A are used to obtain constra...
International audienceContext: Turbulent motions in stellar convection zones generate acoustic energ...
Acoustic power and oscillation amplitudes of radial oscillations computed for a solar model are c...
Context. Turbulent motions in stellar convection zones generate acoustic energy, part of which is th...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
P-mode oscillations in the Sun and stars are excited stochasticly by Reynolds stress and entropy flu...
International audienceAims:We extend semi-analytical computations of excitation rates for solar osci...
Context. Detection of solar gravity modes remains a major challenge to our understanding of the in...
International audienceContext: Detection of solar gravity modes remains a major challenge to our und...
We investigate the frequency dependence of the power spectral density of low-degree solar p modes by...
Excitation of solar-like oscillations is attributed to turbulent convection and takes place at the u...
International audienceThe amplitude of solar-like oscillations results from a balance between excita...
Solar p-mode oscillations are excited by stochastic, non-adiabatic gas pressure fluctuations, which ...
We present a formalism for investigating the interaction between p-mode oscillations and convection ...
The stochastic excitation of solar oscillations due to turbulent convection is reviewed. A number of...
Hydrodynamical, 3D simulations of the outer layers of the Sun and α Cen A are used to obtain constra...
International audienceContext: Turbulent motions in stellar convection zones generate acoustic energ...
Acoustic power and oscillation amplitudes of radial oscillations computed for a solar model are c...
Context. Turbulent motions in stellar convection zones generate acoustic energy, part of which is th...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
P-mode oscillations in the Sun and stars are excited stochasticly by Reynolds stress and entropy flu...
International audienceAims:We extend semi-analytical computations of excitation rates for solar osci...
Context. Detection of solar gravity modes remains a major challenge to our understanding of the in...
International audienceContext: Detection of solar gravity modes remains a major challenge to our und...
We investigate the frequency dependence of the power spectral density of low-degree solar p modes by...
Excitation of solar-like oscillations is attributed to turbulent convection and takes place at the u...