Add to ORKGWe use low-degree p-mode data, collected in integrated sunlight by the Birmingham Solar-Oscillations Network (BiSON), to derive the distribution of the observed strengths of the solar oscillations. We demonstrate that certain features of the observations cannot be explained by a model of the oscillations that is based upon a stochastically forced, damped harmonic oscillator. The solution of the equation of motion of the oscillator, as derived by the use of the Laplace transform, is presented, and its application to the simulation of real p-mode data, in the form of a coded algorithm, is discussed. A variety of tests are applied - both in the time and in the frequency domains - to artificially generated time series. These confirm that the mo...
International audienceContext: . Amplitudes of stellar p modes result from a balance between excitat...
Context. Detection of solar gravity modes remains a major challenge to our understanding of the in...
P-mode oscillations in the Sun and stars are excited stochasticly by Reynolds stress and entropy flu...
We study the excitation of a damped harmonic oscillator by a random force as a model for the stochas...
We investigate the frequency dependence of the power spectral density of low-degree solar p modes by...
We present a formalism for investigating the interaction between p-mode oscillations and convection ...
We report on a novel way of using the phase evolution in solar oscillation data as a tool in the stu...
A review on acoustic mode damping and excitation in solar-type stars is presented. Current models fo...
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 investigate various properties of the excitation source that is responsible for driving the acous...
We report on the average behavior of the excitation and damping of low angular degree (low l) solar ...
Present theories suggest two different classes of excitation mechanisms which may be responsible for...
This paper describes a parametric method aimed at the estimation of correlation in the excitation of...
Hydrodynamical, 3D simulations of the outer layers of the Sun and α Cen A are used to obtain constra...
International audienceContext: . Amplitudes of stellar p modes result from a balance between excitat...
Context. Detection of solar gravity modes remains a major challenge to our understanding of the in...
P-mode oscillations in the Sun and stars are excited stochasticly by Reynolds stress and entropy flu...
We study the excitation of a damped harmonic oscillator by a random force as a model for the stochas...
We investigate the frequency dependence of the power spectral density of low-degree solar p modes by...
We present a formalism for investigating the interaction between p-mode oscillations and convection ...
We report on a novel way of using the phase evolution in solar oscillation data as a tool in the stu...
A review on acoustic mode damping and excitation in solar-type stars is presented. Current models fo...
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 investigate various properties of the excitation source that is responsible for driving the acous...
We report on the average behavior of the excitation and damping of low angular degree (low l) solar ...
Present theories suggest two different classes of excitation mechanisms which may be responsible for...
This paper describes a parametric method aimed at the estimation of correlation in the excitation of...
Hydrodynamical, 3D simulations of the outer layers of the Sun and α Cen A are used to obtain constra...
International audienceContext: . Amplitudes of stellar p modes result from a balance between excitat...
Context. Detection of solar gravity modes remains a major challenge to our understanding of the in...
P-mode oscillations in the Sun and stars are excited stochasticly by Reynolds stress and entropy flu...