The phase of the radio and X-ray pulses of PSR B1937+21

We present some results of an RXTE observation on PSR B1937+21, the fastest known millisecond pulsar (P≃1.56 ms). The pulse profile, detected up to ∼20 keV, shows a double peak, with the main component much stronger than the other. The peak phase separation is 0.526±0.002 and the pulsed spectrum ove...

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Bibliographic Details
Published in:Nuclear physics. Section B, Proceedings supplement Proceedings supplement, 2004-06, Vol.132, p.596-599
Main Authors: Cusumano, G., Hermsen, W., Kramer, M., Kuiper, L., Löhmer, O., Massaro, E., Mineo, T., Nicastro, L., Stappers, B.W.
Format: Article
Language:English
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Summary:We present some results of an RXTE observation on PSR B1937+21, the fastest known millisecond pulsar (P≃1.56 ms). The pulse profile, detected up to ∼20 keV, shows a double peak, with the main component much stronger than the other. The peak phase separation is 0.526±0.002 and the pulsed spectrum over the energy range 2-25 keV is well described by a power law with a photon index equal to 1.14±0.07. We find that the X-ray pulses are closely aligned in phase with the giant pulses observed in the radio band. This result suggest that giant radio pulses and X-ray pulses originate in the same region of the magnetosphere due to a high and fluctuating electron density that occasionally emits coherently in the radio band. The X-ray events, however, do not show any clustering in time indicating that no X-ray flares are produced.
ISSN:0920-5632
1873-3832
DOI:10.1016/j.nuclphysbps.2004.04.101