Add to ORKGAims: To calculate chemistry and gas temperature of evolving protoplanetary disks with decreasing mass or dust settling, and to explore the sensitivity of gas-phase tracers. Methods: The density and dust temperature profiles for a range of models of flaring and self-shadowed disks around a typical Herbig Ae star are used together with 2-dimensional ultraviolet (UV) radiative transfer to calculate the chemistry and gas temperature. In each model the line profiles and intensities for the fine structure lines of [O I], [C II] and [C I] and the pure rotational lines of CO, CN, HCN and HCO+ are determined. Results: The chemistry shows a strong correlation with disk mass. Molecules that are easily dissociated, like HCN, require high densities and...
We propose a set of standard assumptions for the modelling of Class II and III protoplanetary disks,...
Protoplanetary disk mass is a key parameter controlling the process of planetary system formation. C...
We calculate the chemical evolution of protoplanetary disks considering radial viscous accretion, ve...
Aims. To calculate chemistry and gas temperature of evolving protoplanetary disks with decreasing m...
Planets form in disks of gas and dust around young stars. Since the gas makes up 99 % of the disk ma...
CO emission is a useful probe of the warm gas distribution in the planet forming regions of disks ar...
Degree Awarded: Ph.D. Physics. The Catholic University of AmericaThis dissertation addresses several...
Artículo de puiblicación ISIWe propose a set of standard assumptions for the modelling of Class II a...
We propose a set of standard assumptions for the modelling of Class II and III protoplanetary disks,...
Planetary formation takes place in the protoplanetary disks of gas and dust surrounding young stars....
We propose a set of standard assumptions for the modelling of Class II and III protoplanetary disks,...
We present results from a model of the chemical evolution of protoplanetary disks. In our models, we...
Aims. In this paper, we explore the diagnostic power of the far-IR fine-structure lines of [Oi] 63.2...
We propose a set of standard assumptions for the modelling of Class II and III protoplanetary disks,...
Protoplanetary disk mass is a key parameter controlling the process of planetary system formation. C...
We calculate the chemical evolution of protoplanetary disks considering radial viscous accretion, ve...
Aims. To calculate chemistry and gas temperature of evolving protoplanetary disks with decreasing m...
Planets form in disks of gas and dust around young stars. Since the gas makes up 99 % of the disk ma...
CO emission is a useful probe of the warm gas distribution in the planet forming regions of disks ar...
Degree Awarded: Ph.D. Physics. The Catholic University of AmericaThis dissertation addresses several...
Artículo de puiblicación ISIWe propose a set of standard assumptions for the modelling of Class II a...
We propose a set of standard assumptions for the modelling of Class II and III protoplanetary disks,...
Planetary formation takes place in the protoplanetary disks of gas and dust surrounding young stars....
We propose a set of standard assumptions for the modelling of Class II and III protoplanetary disks,...
We present results from a model of the chemical evolution of protoplanetary disks. In our models, we...
Aims. In this paper, we explore the diagnostic power of the far-IR fine-structure lines of [Oi] 63.2...
We propose a set of standard assumptions for the modelling of Class II and III protoplanetary disks,...
Protoplanetary disk mass is a key parameter controlling the process of planetary system formation. C...
We calculate the chemical evolution of protoplanetary disks considering radial viscous accretion, ve...