We develop two general methods to infer the gravitational potential of a system using steady-state tracers, i.e. tracers with a time-independent phase-space distribution. Combined with the phase-space continuity equation, the time independence implies a universal orbital probability density function (oPDF) dP(λ|orbit) ∝ dt, where λ is the coordinate of the particle along the orbit. The oPDF is equivalent to Jeans theorem, and is the key physical ingredient behind most dynamical modelling of steady-state tracers. In the case of a spherical potential, we develop a likelihood estimator that fits analytical potentials to the system and a non-parametric method (‘phase-mark’) that reconstructs the potential profile, both assuming only the oPDF. T...
The spherical Jeans equation (SJE) is widely used in dynamical modelling of the Milky Way (MW) halo ...
The class of tidal features around galaxies known as 'shells' or 'umbrellas' comprises debris that h...
We present a new simple functional form to model the evolution of a spherical mass distribution in a...
Using realistic cosmological simulations of Milky Way sized haloes, we study their dynamical state a...
Using realistic cosmological simulations of Milky Way sized haloes, we study their dynamical state a...
Amongst dynamical modelling techniques, the made-to-measure (M2M) method for modelling steady-state ...
We model the phase-space distribution of the kinematic tracers using general, smooth distribution fu...
Many dynamical models of the Milky Way halo require assumptions that the distribution function of a ...
The advent of data sets of stars in the Milky Way with 6D phase-space information makes it possible ...
We present a 3-staged method for automated learning of the spatial density function of the mass of a...
The mass of the dark matter halo of the Milky Way can be estimated by fitting analytical models to t...
Measuring the density profile of dark matter in the Solar neighborhood has important implications fo...
Accurate phase-space coordinates (three components of position and velocity) of individual stars are...
We study the orbital phase space of dark matter (DM) haloes in the AURIGA suite of cosmological hydr...
Astrophysical Journal Letters 803.1 (2015) L3 reproduced by permission of the AASWe present the resu...
The spherical Jeans equation (SJE) is widely used in dynamical modelling of the Milky Way (MW) halo ...
The class of tidal features around galaxies known as 'shells' or 'umbrellas' comprises debris that h...
We present a new simple functional form to model the evolution of a spherical mass distribution in a...
Using realistic cosmological simulations of Milky Way sized haloes, we study their dynamical state a...
Using realistic cosmological simulations of Milky Way sized haloes, we study their dynamical state a...
Amongst dynamical modelling techniques, the made-to-measure (M2M) method for modelling steady-state ...
We model the phase-space distribution of the kinematic tracers using general, smooth distribution fu...
Many dynamical models of the Milky Way halo require assumptions that the distribution function of a ...
The advent of data sets of stars in the Milky Way with 6D phase-space information makes it possible ...
We present a 3-staged method for automated learning of the spatial density function of the mass of a...
The mass of the dark matter halo of the Milky Way can be estimated by fitting analytical models to t...
Measuring the density profile of dark matter in the Solar neighborhood has important implications fo...
Accurate phase-space coordinates (three components of position and velocity) of individual stars are...
We study the orbital phase space of dark matter (DM) haloes in the AURIGA suite of cosmological hydr...
Astrophysical Journal Letters 803.1 (2015) L3 reproduced by permission of the AASWe present the resu...
The spherical Jeans equation (SJE) is widely used in dynamical modelling of the Milky Way (MW) halo ...
The class of tidal features around galaxies known as 'shells' or 'umbrellas' comprises debris that h...
We present a new simple functional form to model the evolution of a spherical mass distribution in a...