High energy neutrinos from fast spinning magnetars

Abstract: Fast spinning magnetars are discussed as strong sources of high energy neutrinos. Pulsars may be born with a short rotation period of milliseconds with the magnetic field amplified through dynamo processes up to ∼ 10 15 − 10 16 G. As such millisecond magnetars (MSMs) have an enormous spin-down power ∼ 10 50 erg s −1 , they can be potentially a strong, extragalactic high-energy neutrino source. Specifically, acceleration of ions and subsequent photomeson production within the MSM magnetosphere are considered. A… Show more

“…This region of parameter values is of importance in connection with problems of the physics of magnetars, the pulsars with superstrong surface magnetic fields (B s ∼ 10 15 G). In particular, the possibility of detecting cosmic neutrinos of ultrahigh energy, ∼ 1 PeV or even higher, from magnetars is widely discussed (see, for example, [11,12,13]). It looks reasonable that the process of emission of neutrinos having such energies cannot be described adequately without taking into account their interaction with a strong magnetic field of a magnetar.…”

High energy neutrino absorption by W production in a strong magnetic field

“…This region of parameter values is of importance in connection with problems of the physics of magnetars, the pulsars with superstrong surface magnetic fields (B s ∼ 10 15 G). In particular, the possibility of detecting cosmic neutrinos of ultrahigh energy, ∼ 1 PeV or even higher, from magnetars is widely discussed (see, for example, [11,12,13]). It looks reasonable that the process of emission of neutrinos having such energies cannot be described adequately without taking into account their interaction with a strong magnetic field of a magnetar.…”

High energy neutrino absorption by W production in a strong magnetic field

The Diffuse Emission of Neutrinos from Young Pulsars in the Galaxy