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The observational anatomy of externally photoevaporating planet-forming discs - I. Atomic carbon

Haworth, TJ; Owen, JE (Oxford University Press, 2020-03)

We demonstrate the utility of C I as a tracer of photoevaporative winds that are being driven from discs by their ambient UV environment. Commonly observed CO lines only trace these winds in relatively weak UV environments ...

Fragmentation favoured in discs around higher mass stars

Cadman, J; Rice, K; Hall, C; Haworth, TJ; Biller, B (Oxford University Press, 2020-03)

We investigate how a protoplanetary disc’s susceptibility to gravitational instabilities and fragmentation depends on the mass of its host star. We use 1D disc models in conjunction with 3D smoothed particle hydrodynamics ...

Peter Pan discs: finding Neverland's parameters

Coleman, GAL; Haworth, TJ (2020-07)

Massive discs around low-mass stars

Haworth, TJ; Cadman, J; Meru, F; Hall, C; Albertini, E; Forgan, D; Rice, K; Owen, JE (2020-05)

Testing viscous disc theory using the balance between stellar accretion and external photoevaporation of protoplanetary discs

Winter, AJ; Ansdell, M; Haworth, TJ; Kruijssen, JMD (2020-09)

A three-dimensional view of Gomez's hamburger

Teague, R; Jankovic, MR; Haworth, TJ; Qi, C; Ilee, JD (2020-06)

Hydrodynamical turbulence in eccentric circumbinary discs and its impact on the in situ formation of circumbinary planets

Pierens, A; McNally, CP; Nelson, RP (2020-08)

Dispersal of protoplanetary discs: how stellar properties and the local environment determine the pathway of evolution

Coleman, GAL; Haworth, TJ (2022-06-16)