The advent of data sets of stars in the Milky Way with 6D phase-space information makes it possible to construct empirically the distribution function (DF). Here, we show that the accelerations can be uniquely determined from the DF using the collisionless Boltzmann equation, providing the Hessian determinant of the DF with respect to the velocities is non-vanishing. We illustrate this procedure and requirement with some analytic examples. Methods to extract the potential from data sets of discrete positions and velocities of stars are then discussed. Following Green & Ting, we advocate the use of normalizing flows on a sample of observed phase-space positions to obtain a differentiable approximation of the DF. To then derive gravitational ...
The standard method of modelling axisymmetric stellar systems begins from the assumption that mass f...
We develop two general methods to infer the gravitational potential of a system using steady-state t...
When faced with the task of constraining a galaxy's potential given limited stellar kinematical info...
The advent of data sets of stars in the Milky Way with 6D phase-space information makes it possible ...
Gravitational acceleration fields can be deduced from the collisionless Boltzmann equation, once the...
Measuring the density profile of dark matter in the Solar neighborhood has important implications fo...
The dynamics of a galaxy as a stellar system in statistical equilibrium is usually obtained from the...
We present a new theoretical population synthesis model (the Galaxy Model) to examine and deal with ...
International audienceContext. Accurate astrometry achieved by Gaia for many stars in the Milky Way ...
One of the key goals of Milky Way science is measuring the distribution of dark matter in the Galaxy...
Line-of-sight velocity distributions are crucial for unravelling the dynamics of hot stellar systems...
Context. Accurate astrometry achieved by Gaia for many stars in the Milky Way provides an opportunit...
One of the key goals of Milky Way science is measuring the distribution of dark matter in the Galaxy...
We model the phase-space distribution of the kinematic tracers using general, smooth distribution fu...
International audienceStarting from an axisymmetric equilibrium distribution function (DF) in action...
The standard method of modelling axisymmetric stellar systems begins from the assumption that mass f...
We develop two general methods to infer the gravitational potential of a system using steady-state t...
When faced with the task of constraining a galaxy's potential given limited stellar kinematical info...
The advent of data sets of stars in the Milky Way with 6D phase-space information makes it possible ...
Gravitational acceleration fields can be deduced from the collisionless Boltzmann equation, once the...
Measuring the density profile of dark matter in the Solar neighborhood has important implications fo...
The dynamics of a galaxy as a stellar system in statistical equilibrium is usually obtained from the...
We present a new theoretical population synthesis model (the Galaxy Model) to examine and deal with ...
International audienceContext. Accurate astrometry achieved by Gaia for many stars in the Milky Way ...
One of the key goals of Milky Way science is measuring the distribution of dark matter in the Galaxy...
Line-of-sight velocity distributions are crucial for unravelling the dynamics of hot stellar systems...
Context. Accurate astrometry achieved by Gaia for many stars in the Milky Way provides an opportunit...
One of the key goals of Milky Way science is measuring the distribution of dark matter in the Galaxy...
We model the phase-space distribution of the kinematic tracers using general, smooth distribution fu...
International audienceStarting from an axisymmetric equilibrium distribution function (DF) in action...
The standard method of modelling axisymmetric stellar systems begins from the assumption that mass f...
We develop two general methods to infer the gravitational potential of a system using steady-state t...
When faced with the task of constraining a galaxy's potential given limited stellar kinematical info...