Researchers Map The Radio Emission Beams Of Neutron Stars

| September 6, 2019 | Astronomy | No Comments

Eddie Gonzales Jr. – MessageToEagle.com – Researchers have been successful in mapping the topography of both magnetic poles of a pulsar for the first time. This was possible thanks to the effect of gravity described by Einstein’s theory of general relativity.

Pulsars are rapidly rotating neutron stars and are one of the most exotic objects in the Universe with a gravitational field second only to black holes. They have the strongest magnetic fields in the Universe and emit radio emission from their magnetic poles.

PSR J1906+0746:The relativistic effect of a pulsar‘s spin precession enables the resolution of the beam structure of the pulsar. © Gregory Desvignes & Michael Kramer, MPIfRPSR J1906+0746:The relativistic effect of a pulsar‘s spin precession enables the resolution of the beam structure of the pulsar. © Gregory Desvignes & Michael Kramer, MPIfR

“This pulsar, known as PSR J1906+0746, is a member of a binary system with another neutron star. The extreme gravitational environment of the two neutron stars causes spacetime to be distorted. This, in turn, causes the pulsar to precess, changing the angle we view the radio emission and thus allowing us to map out the emission.” said Professor Andrew Lyne of the University of Manchester, who used the Lovell telescope at Jodrell Bank Observatory to first determine the nature of this system.

“This pulsar is expected to precess so far that in 2028 the pulsar will no longer be visible from Earth and we will continue to monitor it with our telescopes including the Lovell Telescope at Jodrell Bank Observatory up to that point to see what more we can learn from this interesting system,” said Ben Stappers, Professor of Astrophysics at the University of Manchester.

Gregory Desvignes from the Max Planck Institute for Radio Astronomy (MPIfR) in Bonn, who used observations with the Arecibo and Nançay telescopes, and led the research team, said in a press release that “PSR J1906+0746 is a unique laboratory in which we can simultaneously constrain the radio pulsar emission physics and test Einstein’s theory of general relativity.”

“These results show that the emission beam is not round as might be expected, but elongated.”

This result is the most precise measurement of the so-called geoderic precession effect predicted by the theory of general relativity. The maps of these emission beams also provide important information on the double neutron star population in our galaxy and the expected gravitational wave detection rate for neutron star mergers.

“The experiment took us a long time to complete, but was well worth the investment in telescope time”, concludes Michael Kramer, Director of MPIfR and University of Manchester affiliated Professor.

Paper

Written by Eddie Gonzales Jr. – MessageToEagle.com Staff

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