The existence of ultrafast rotating neutron stars (spin period P less than or similar to1 ms) is expected on the basis of current models for the secular evolution of interacting binaries, although they have not been detected yet. Their formation depends on the quantity of matter accreted by the neutron star which, in turn, is limited by the mechanism of mass ejection from the binary. An efficient mass ejection can avoid the formation of ultrafast pulsars or their accretion-induced collapse to a black hole. We propose that significant reductions of the mass transfer rate may cause the switch-on of a radio pulsar phase, whose radiation pressure may be capable of ejecting out of the system most of the matter transferred by the companion. This ...
The similarity of rotation periods of the anomalous X-ray pulsars (AXPs), the soft gamma-ray repeate...
Pulsars have been recognized to be normal neutron stars, but sometimes have been argued to be quark ...
Context. Several fast radio bursts have been discovered recently, showing a bright, highly...
The existence of ultrafast rotating neutron stars (spin period P less than or similar to1 ms) is exp...
Disclaimer/Complaints regulations If you believe that digital publication of certain material infrin...
The existence of ultra-fast rotating neutron stars (spin period P < 1 ms) is expected on the basis o...
Millisecond pulsars are neutron stars that are thought to have been spun-up by mass accretion from a...
International audienceContext. Rapidly rotating neutron stars are an ideal laboratory to test models...
Rapidly spinning neutron stars, recycled in low-mass binaries, may have accreted a substantial amoun...
Neutron stars are amongst the most exotic objects known in the universe; more than a solar mass of m...
Context. Several fast radio bursts have been discovered recently, showing a bright, highly dispersed...
Binary and Millisecond pulsars have a great deal to teach us about stellar evolution and are invalua...
It is thought that neutron stars in low-mass binary systems can accrete matter and angular momentum ...
Pulsars are spinning extremely rapidly with periods as short as about 1.4 milliseconds and delays of...
The radio-emitting neutron star population encompasses objects with spin periods ranging from millis...
The similarity of rotation periods of the anomalous X-ray pulsars (AXPs), the soft gamma-ray repeate...
Pulsars have been recognized to be normal neutron stars, but sometimes have been argued to be quark ...
Context. Several fast radio bursts have been discovered recently, showing a bright, highly...
The existence of ultrafast rotating neutron stars (spin period P less than or similar to1 ms) is exp...
Disclaimer/Complaints regulations If you believe that digital publication of certain material infrin...
The existence of ultra-fast rotating neutron stars (spin period P < 1 ms) is expected on the basis o...
Millisecond pulsars are neutron stars that are thought to have been spun-up by mass accretion from a...
International audienceContext. Rapidly rotating neutron stars are an ideal laboratory to test models...
Rapidly spinning neutron stars, recycled in low-mass binaries, may have accreted a substantial amoun...
Neutron stars are amongst the most exotic objects known in the universe; more than a solar mass of m...
Context. Several fast radio bursts have been discovered recently, showing a bright, highly dispersed...
Binary and Millisecond pulsars have a great deal to teach us about stellar evolution and are invalua...
It is thought that neutron stars in low-mass binary systems can accrete matter and angular momentum ...
Pulsars are spinning extremely rapidly with periods as short as about 1.4 milliseconds and delays of...
The radio-emitting neutron star population encompasses objects with spin periods ranging from millis...
The similarity of rotation periods of the anomalous X-ray pulsars (AXPs), the soft gamma-ray repeate...
Pulsars have been recognized to be normal neutron stars, but sometimes have been argued to be quark ...
Context. Several fast radio bursts have been discovered recently, showing a bright, highly...