Add to ORKGNeutron stars, with their strong surface gravity, have interestingly short timescales for the sedimentation of heavy elements. Recent observations of unstable thermonuclear burning (observed as X-ray bursts) on the surfaces of slowly accreting neutron stars ($< 0.01$ of the Eddington rate) motivate us to examine how sedimentation of CNO isotopes affects the ignition of these bursts. We further estimate the burst development using a simple one-zone model with a full reaction network. We report a region of mass accretion rates for weak H flashes. Such flashes can lead to a large reservoir of He, the unstable burning of which may explain some observed long bursts (duration $\sim 1000$ s)
We have assembled a sample of 1187 thermonuclear (type I) X-ray bursts from observations of 48 accre...
Results of various observations of common type I X-ray bursts are discussed with respect to the theo...
We investigate the effect of a new triple-α reaction rate from Ogata et al. on helium ignition condi...
Neutron stars, with their strong surface gravity, have interestingly short timescales for the sedime...
Neutron stars, with their strong surface gravity, have interestingly short timescales for the sedime...
We show that burning of a small mass fraction of carbon in a neutron star ocean is thermally unstabl...
We construct a two-zone model to describe hydrogen and helium burning on the surface of an accreting...
I review our understanding of the thermonuclear instabilities on accreting neutron stars that produc...
We use the two-zone model of Cooper & Narayan to study the onset and time evolution of hydrogen-trig...
Neutron stars are the most compact stars that can be directly observed, which makes them ideal labor...
Multizone models of Type I X-ray bursts are presented that use an adaptive nuclear reaction network ...
Observations of Type I X-ray bursts have long been taken as evidence that the sources are neutron st...
Explosive hydrogen burning in type I X-ray bursts (XRBs) is driven by charged particle reactions cre...
The rotation rates of six weakly-magnetic neutron stars accreting in low-mass X-ray binaries have mo...
Thermonuclear X-ray bursts from accreting neutron stars power brief but strong irradiation of their ...
We have assembled a sample of 1187 thermonuclear (type I) X-ray bursts from observations of 48 accre...
Results of various observations of common type I X-ray bursts are discussed with respect to the theo...
We investigate the effect of a new triple-α reaction rate from Ogata et al. on helium ignition condi...
Neutron stars, with their strong surface gravity, have interestingly short timescales for the sedime...
Neutron stars, with their strong surface gravity, have interestingly short timescales for the sedime...
We show that burning of a small mass fraction of carbon in a neutron star ocean is thermally unstabl...
We construct a two-zone model to describe hydrogen and helium burning on the surface of an accreting...
I review our understanding of the thermonuclear instabilities on accreting neutron stars that produc...
We use the two-zone model of Cooper & Narayan to study the onset and time evolution of hydrogen-trig...
Neutron stars are the most compact stars that can be directly observed, which makes them ideal labor...
Multizone models of Type I X-ray bursts are presented that use an adaptive nuclear reaction network ...
Observations of Type I X-ray bursts have long been taken as evidence that the sources are neutron st...
Explosive hydrogen burning in type I X-ray bursts (XRBs) is driven by charged particle reactions cre...
The rotation rates of six weakly-magnetic neutron stars accreting in low-mass X-ray binaries have mo...
Thermonuclear X-ray bursts from accreting neutron stars power brief but strong irradiation of their ...
We have assembled a sample of 1187 thermonuclear (type I) X-ray bursts from observations of 48 accre...
Results of various observations of common type I X-ray bursts are discussed with respect to the theo...
We investigate the effect of a new triple-α reaction rate from Ogata et al. on helium ignition condi...