Astronomy and Astrophysics – Astrophysics
Scientific paper
2007-09-19
AIPConf.Proc.968:115-120,2008
Astronomy and Astrophysics
Astrophysics
6 pages, 5 figures, Proceedings of "Astrophysics of Compact Objects", 1th-7th, July, 2007
Scientific paper
10.1063/1.2840382
Many models for the pulsar radio and $\gamma$-ray emissions have been developed. The tests for these models using observational data are very important. Tests for the pulsar radio emission models using frequency-altitude relation are presented in this paper. In the radio band, the mean pulse profiles evolve with observing frequencies. There are various styles of pulsar profile - frequency evolutions (which we call as "beam evolution" figure), e.g. some pulsars show that mean pulse profiles are wider and core emission is higher at higher frequencies than that at lower frequencies, but some other pulsars show completely the contrary results. We show that all these "beam evolution" figures can be understood by the Inverse Compton Scattering(ICS) model (see Qiao at al.2001 also). An important observing test is that, for a certain observing frequency different emission components are radiated from the different heights. For the $\gamma$-ray pulsars, the geometrical method (Wang et al. 2006) can be used to diagnose the radiation location for the $\gamma$-ray radiation. As an example, Wang et al. (2006) constrain the $\gamma$-ray radiation location of PSR B1055-52 to be the place near the null charge surface. Here we show that Wang's result matches the proposed radiation locations by the annular gap model as well as the outer gap models.
Lee Kyung Jae
Qiao Guo Jun
Wang Hong-Guang
Xu Ren Xin
Zhang Baigang
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