Add to ORKGThirty-five years after the discovery of rotation-powered pulsars, we still do not understand the fundamentals of their pulsed emission at any wavelength. Even detailed pulse profiles cannot identify the location of the emission in a magnetosphere that extends from the neutron star surface to near the light cylinder. Compounding the problem are effects of strong gravity at low altitudes and plasma moving at relativistic speeds in the outer magnetosphere. I will discuss the role of special and general relativistic effects on pulsar emission, from inertial frame-dragging near the stellar surface to aberration, time-of-flight and retardation of the magnetic field near the light cylinder. Understanding how these effects determine what we observ...
International audienceMost current pulsar emission models assume photon production and emission with...
Millisecond pulsars are neutron stars that attain their very fast rotation during a 108-109-yr-long ...
Electron-positron pair production and acceleration in the outer magnetosphere may be crucial for a y...
Thirty-five years after the discovery of rotation-powered pulsars, we still do not understand their ...
Context. According to current pulsar emission models, photons are produced within their magnetospher...
There has been much progress in detecting and understanding high-energy (∼1 keV-10 GeV) radiation fr...
We have developed a method to compute the possible distribution of radio emission regions in a typic...
Precursors and postcursors (PPCs) are rare emission components, which appear beyond the main pulse e...
The recent discovery of millisecond pulsars has led to several theories about the structure and radi...
Almost 50 years after radio pulsars were discovered in 1967, our understanding of these objects rema...
According to current pulsar emission models, photons are produced within their magnetosphere or insi...
Neutron stars are amongst the most exotic objects known in the universe; more than a solar mass of m...
A theoretical framework for emission originating from rapidly rotating oblate compact objects is des...
Pulsars are strongly magnetised neutron stars where their fast rotation powers the acceleration of p...
Pulsars are small, dense, rotating stars that appear to flash as they sweep the sky with beams of ra...
International audienceMost current pulsar emission models assume photon production and emission with...
Millisecond pulsars are neutron stars that attain their very fast rotation during a 108-109-yr-long ...
Electron-positron pair production and acceleration in the outer magnetosphere may be crucial for a y...
Thirty-five years after the discovery of rotation-powered pulsars, we still do not understand their ...
Context. According to current pulsar emission models, photons are produced within their magnetospher...
There has been much progress in detecting and understanding high-energy (∼1 keV-10 GeV) radiation fr...
We have developed a method to compute the possible distribution of radio emission regions in a typic...
Precursors and postcursors (PPCs) are rare emission components, which appear beyond the main pulse e...
The recent discovery of millisecond pulsars has led to several theories about the structure and radi...
Almost 50 years after radio pulsars were discovered in 1967, our understanding of these objects rema...
According to current pulsar emission models, photons are produced within their magnetosphere or insi...
Neutron stars are amongst the most exotic objects known in the universe; more than a solar mass of m...
A theoretical framework for emission originating from rapidly rotating oblate compact objects is des...
Pulsars are strongly magnetised neutron stars where their fast rotation powers the acceleration of p...
Pulsars are small, dense, rotating stars that appear to flash as they sweep the sky with beams of ra...
International audienceMost current pulsar emission models assume photon production and emission with...
Millisecond pulsars are neutron stars that attain their very fast rotation during a 108-109-yr-long ...
Electron-positron pair production and acceleration in the outer magnetosphere may be crucial for a y...