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Recently, several accreting M dwarf stars have been discovered with ages far exceeding the typical protoplanetary disc lifetime. These `Peter Pan discs' can be explained as primordial discs that evolve in a low-radiation environment. The…

Solar and Stellar Astrophysics · Physics 2025-10-03 Maite J. C. Wilhelm , Simon Portegies Zwart

We present Chandra X-ray observations of 6 previously-identified Peter Pan objects, rare 40 Myr systems with evidence of primordial disk retention. We observe X-ray luminosities (0.8-3.0 keV) ranging from log Lx 27.7-29.1. We find that our…

While protoplanetary disks (PPDs) are generally thought to disperse within several million years, recent observations have revealed gas in their older counterparts, debris disks. The origin of this gas remains uncertain, with one…

Earth and Planetary Astrophysics · Physics 2025-02-27 Wataru Ooyama , Riouhei Nakatani , Takashi Hosokawa , Hiroto Mitani , Neal J. Turner

Context. Protoplanetary discs are the birthplaces of planets. Recent studies highlight the role of stellar mass sampling in determining disc lifetimes from the observed fraction of stars with discs. Low-mass stars tend to host longer-lived…

Earth and Planetary Astrophysics · Physics 2025-10-09 Jose L. Gomez , Octavio M. Guilera , Marcelo M. Miller Bertolami , Elisa Castro-Martínez , María Paula Ronco

Transition discs are protoplanetary discs that show evidence for large holes or wide gaps (with widths comparable to their radii) in their dust component. These discs could be giving us clues about the disc destruction mechanism or hints…

Solar and Stellar Astrophysics · Physics 2016-02-24 James E. Owen

We study the evolution of protoplanetary discs that would have been precursors of a Trappist-1 like system under the action of accretion and external photoevaporation in different radiation environments. Dust grains swiftly grow above the…

Earth and Planetary Astrophysics · Physics 2018-02-07 Thomas J. Haworth , Stefano Facchini , Cathie J. Clarke , Subhanjoy Mohanty

WISEA J080822.18-644357.3, an M star in the Carina association, exhibits extreme infrared excess and accretion activity at an age greater than the expected accretion disk lifetime. We consider J0808 as the prototypical example of a class of…

While both observations and theories demonstrate that protoplanetary disks are not expected to live much longer than $\sim$10 Myr, several examples of prolonged disks have been observed in the past. In this work, we perform a systematic…

Astrophysics of Galaxies · Physics 2025-01-09 Xiao-Long Wang , Min Fang , Yao Liu , Miao-Miao Zhang , Wen-Yuan Cui

We study the evolution and final dispersal of protoplanetary discs that evolve under the action of internal and external photoevaporation, and different degrees of viscous transport. We identify five distinct dispersal pathways, which are…

Earth and Planetary Astrophysics · Physics 2022-06-08 Gavin A. L. Coleman , Thomas J. Haworth

Protoplanetary discs are crucial to understanding how planets form and evolve, but these objects are subject to the vagaries of the birth environments of their host stars. In particular, photoionising radiation from massive stars has been…

Earth and Planetary Astrophysics · Physics 2022-08-31 Bridget Marchington , Richard J. Parker

Photoevaporation of planet forming discs by high energy radiation from the central star is potentially a crucial mechanism for disc evolution and it may play an important role in the formation and evolution of planetary system. We present…

Earth and Planetary Astrophysics · Physics 2019-10-25 Giovanni Picogna , Barbara Ercolano , James E. Owen , Michael L. Weber

Context: Around 30 per cent of the observed exoplanets that orbit M dwarf stars are gas giants that are more massive than Jupiter. These planets are prime candidates for formation by disc instability. Aims: We want to determine the…

Solar and Stellar Astrophysics · Physics 2020-01-29 Anthony Mercer , Dimitris Stamatellos

The chemical evolution of the inner regions of protoplanetary discs is a complex process. Several factors influence it, one being the inward drift and evaporation of volatile-rich pebbles. During the disc's evolution, its inner part is…

Earth and Planetary Astrophysics · Physics 2025-08-06 Julia Lena Lienert , Bertram Bitsch , Thomas Henning

We demonstrate that planet formation via pebble accretion is sensitive to external photoevaporation of the outer disc. In pebble accretion, planets grow by accreting from a flux of solids (pebbles) that radially drift inwards from the…

Earth and Planetary Astrophysics · Physics 2023-04-12 Lin Qiao , Gavin A. L. Coleman , Thomas J. Haworth

The frequency of discs around young stars, a key parameter for understanding planet formation, is most readily determined in young stellar clusters where many relatively coeval stars are located in close proximity. Observational studies…

Astrophysics of Galaxies · Physics 2015-06-22 Susanne Pfalzner , Manuel Steinhausen , Karl Menten

We analyse N-body simulations of star-forming regions to investigate the effects of external far and extreme ultra-violet photoevaporation from massive stars on protoplanetary discs. By varying the initial conditions of simulated…

Astrophysics of Galaxies · Physics 2019-04-10 Rhana B. Nicholson , Richard J. Parker , Ross P. Church , Melvyn B. Davies , Niamh M. Fearon , Sam R. J. Walton

We investigate under what circumstances an embedded planet in a protoplanetary disc may sculpt the dust distribution such that it observationally presents as a `transition' disc. We concern ourselves with `transition' discs that have large…

Earth and Planetary Astrophysics · Physics 2015-06-19 James E. Owen

Aims. We want to find the distribution of initial conditions that best reproduces disc observations at the population level. Methods. We first ran a parameter study using a 1D model that includes the viscous evolution of a gas disc, dust,…

Earth and Planetary Astrophysics · Physics 2023-05-10 Alexandre Emsenhuber , Remo Burn , Jesse Weder , Kristina Monsch , Giovanni Picogna , Barbara Ercolano , Thomas Preibisch

Protoplanetary discs (PPDs) in the Orion Nebula Cluster (ONC) are irradiated by UV fields from the massive star $\theta^1$C. This drives thermal winds, inducing mass loss rates of up to $\dot{M}_\mathrm{wind}\sim 10^{-7}\,M_\odot$/yr in the…

Solar and Stellar Astrophysics · Physics 2019-09-25 Andrew J. Winter , Cathie J. Clarke , Giovanni P. Rosotti , Alvaro Hacar , Richard Alexander

Simulations of the collapse and fragmentation of turbulent molecular clouds and dense young clusters show that encounters between disc-surrounded stars are relatively common events which should significantly influence the resulting disc…

Astrophysics · Physics 2009-11-11 S. Pfalzner , S. Umbreit , Th. Henning
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