New Mechanism of Pulsar Radio Emission
- 6 March 2002
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 88 (12) , 121101
- https://doi.org/10.1103/physrevlett.88.121101
Abstract
It is shown that pulsar radio emission can be generated effectively through a streaming motion in the polar-cap regions of a pulsar magnetosphere causing nonresonant growth of waves that can escape directly. As in other beam models, a relatively low-energy high-density beam is required. The instability generates quasitransverse waves in a beam mode at frequencies that can be well below the resonant frequency. As the waves propagate outward, growth continues until the height at which the wave frequency is equal to the resonant frequency. Beyond this point, the waves escape in a natural plasma mode (LO mode). This one-step mechanism is much more efficient than previously widely considered multistep mechanisms.Keywords
This publication has 16 references indexed in Scilit:
- Relativistic anisotropic pair plasmasMonthly Notices of the Royal Astronomical Society, 2000
- Relativistic Plasma Emission and Pulsar Radio Emission: A CritiqueThe Astrophysical Journal, 1999
- Non-stationary pair plasma in a pulsar magnetosphere and the two-stream InstabilityMonthly Notices of the Royal Astronomical Society, 1998
- Long waves in a relativistic pair plasma in a strong magnetic fieldPhysical Review E, 1998
- On the impossibility of wave generation due to plasma motion in the weakly inhomogeneous magnetic field of pulsarsPlasma Physics and Controlled Fusion, 1991
- Plasma flow nonstationarity in pulsar magnetospheres and two-stream instabilityAstrophysics and Space Science, 1988
- On two-stream instability in pulsar magnetospheresThe Astrophysical Journal, 1987
- Pair creation above pulsar polar caps - Geometrical structure and energetics of slot gapsThe Astrophysical Journal, 1983
- Electromagnetic cascades in pulsarsThe Astrophysical Journal, 1982
- PulsarsAmerican Journal of Physics, 1978