Add to ORKGThermonuclear burning on the surface of accreting neutron stars is observed to stabilize at accretion rates almost an order of magnitude lower than theoretical models predict. One way to resolve this discrepancy is by including a base heating flux that can stabilize the layer. We focus our attention on pure helium accretion, for which we calculate the effect of a base heating flux on the critical accretion rate at which thermonuclear burning stabilizes. We use the MESA stellar evolution code to calculate ṁcrit as a function of the base flux, and derive analytic fitting formulae for ṁcrit and the burning temperature at that critical accretion rate, based on a one-zone model. We also investigate whether the critical accretion rate can be de...
Some thermonuclear (type I) X-ray bursts at the neutron star surfaces in low-mass X-ray binaries tak...
The rotation rates of six weakly-magnetic neutron stars accreting in low-mass X-ray binaries have mo...
Neutron stars, with their strong surface gravity, have interestingly short timescales for the sedime...
Hydrogen and/or helium accreted by a neutron star from a binary companion may undergo thermonuclear ...
Hydrogen and/or helium accreted by a neutron star from a binary companion may undergo thermonuclear ...
We present a global linear stability analysis of nuclear fuel accumulating on the surface of an accr...
Neutron stars are the most compact stars that can be directly observed, which makes them ideal labor...
One of the challenges to increasing the mass of a white dwarf through accretion is the tendency for ...
The thermonuclear evolution of a 1.41 M sub solar neutron star accreting both solar and metal-defici...
A critical relation in the study of neutron star cooling is the one between surface temperature and ...
Accreting white dwarfs can exhibit a variety of thermonuclear phenomena, such as shell flashes, clas...
Valuable information about the neutron star (NS) interior can be obtained by comparing observations ...
The thermonuclear evolution of a 1.41 M solar mass neutron star, with a radius of 14.3 km, accreting...
We present a quantitative criterion for the thermal stability of thermonuclear shell sources. We f...
We construct a two-zone model to describe hydrogen and helium burning on the surface of an accreting...
Some thermonuclear (type I) X-ray bursts at the neutron star surfaces in low-mass X-ray binaries tak...
The rotation rates of six weakly-magnetic neutron stars accreting in low-mass X-ray binaries have mo...
Neutron stars, with their strong surface gravity, have interestingly short timescales for the sedime...
Hydrogen and/or helium accreted by a neutron star from a binary companion may undergo thermonuclear ...
Hydrogen and/or helium accreted by a neutron star from a binary companion may undergo thermonuclear ...
We present a global linear stability analysis of nuclear fuel accumulating on the surface of an accr...
Neutron stars are the most compact stars that can be directly observed, which makes them ideal labor...
One of the challenges to increasing the mass of a white dwarf through accretion is the tendency for ...
The thermonuclear evolution of a 1.41 M sub solar neutron star accreting both solar and metal-defici...
A critical relation in the study of neutron star cooling is the one between surface temperature and ...
Accreting white dwarfs can exhibit a variety of thermonuclear phenomena, such as shell flashes, clas...
Valuable information about the neutron star (NS) interior can be obtained by comparing observations ...
The thermonuclear evolution of a 1.41 M solar mass neutron star, with a radius of 14.3 km, accreting...
We present a quantitative criterion for the thermal stability of thermonuclear shell sources. We f...
We construct a two-zone model to describe hydrogen and helium burning on the surface of an accreting...
Some thermonuclear (type I) X-ray bursts at the neutron star surfaces in low-mass X-ray binaries tak...
The rotation rates of six weakly-magnetic neutron stars accreting in low-mass X-ray binaries have mo...
Neutron stars, with their strong surface gravity, have interestingly short timescales for the sedime...