On the fraction of particles involved in magneto-centrifugally generated ultra-high energy electrons in the Crab pulsar

Abstract

The earthward journey of ultra high energy electrons ( 600 TeV) produced in the Pulsar atmosphere by Landau damping of magneto-centrifugally excited Langmuir waves (drawing energy form the rotational slowdown) on primary electrons, is charted. It is shown, that just as they escape the light cylinder zone, the ultra-high energy particles, interacting with the medium of the Crab nebula, rapidly loose their energy via the quantum synchrotron process, producing highly energetic gamma rays ~ 0.6PeV. Interacting with the cosmic background radiation in the interstellar medium, only a tiny fraction of these ultra high energy photons (via the γγ channel) are, then transformed into electron-positron pairs. Detected flux of these photons imposes an upper limit on the fraction (4× 10-7) of the magnetospheric particles involved in the process of generation of ultra-high energy photons (up to 600 TeV).