XMM-NEWTON OBSERVATION OF THE VERY OLD PULSAR J0108–1431

We report on an X-ray observation of the 166 Myr old radio pulsar J0108-1431 with XMM-Newton. The X-ray spectrum can be described by a power-law model with a relatively steep photon index [Gamma] approximately 3 or by a combination of thermal and non-thermal components, e.g., a power-law component w...

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Veröffentlicht in:	The Astrophysical journal 2012-12, Vol.761 (2), p.1-10
Hauptverfasser:	Posselt, B, ARUMUGASAMY, P, Pavlov, G G, Manchester, R N, Shannon, R M, Kargaltsev, O
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Sprache:	eng
Schlagworte:	ASTROPHYSICS ASTROPHYSICS, COSMOLOGY AND ASTRONOMY ASYMMETRY COSMIC PHOTONS Density GAMMA ASTRONOMY HARMONICS HYDROGEN KEV RANGE Mathematical models Photons PULSARS PULSATIONS PULSES Radio RADIOASTRONOMY STARS VISIBLE RADIATION X RADIATION X-RAY SPECTRA X-rays XMM (spacecraft)
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creator	Posselt, B ARUMUGASAMY, P Pavlov, G G Manchester, R N Shannon, R M Kargaltsev, O
description	We report on an X-ray observation of the 166 Myr old radio pulsar J0108-1431 with XMM-Newton. The X-ray spectrum can be described by a power-law model with a relatively steep photon index [Gamma] approximately 3 or by a combination of thermal and non-thermal components, e.g., a power-law component with fixed photon index [Gamma] = 2 plus a blackbody component with a temperature of kT = 0.11 keV. The two-component model appears more reasonable considering different estimates for the hydrogen column density N sub(H). The non-thermal X-ray efficiency in the single power-law model is [eta] super(PL) sub(1-10 keV) = L super(PL) sub(1-10 keV)/E ~ 0.003, higher than in most other X-ray-detected pulsars. In the case of the combined model, the non-thermal and thermal X-ray efficiencies are even higher, [eta] super(PL) sub(1-10 keV) ~ [eta] super(bb) sub(PC) ~ 0.006. We detected X-ray pulsations at the radio period of P approximately 0.808 s with significance of approximately 7[sigma]. The pulse shape in the folded X-ray light curve (0.15-2 keV) is asymmetric, with statistically significant contributions from up to five leading harmonics. Pulse profiles at two different energy ranges differ slightly: the profile is asymmetric at low energies, 0.15-1 keV, while at higher energies, 1-2 keV, it has a nearly sinusoidal shape. The radio pulse peak leads the 0.15-2 keV X-ray pulse peak by [Delta][phi] = 0.06 + or - 0.03.
doi_str_mv	10.1088/0004-637X/761/2/117
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The pulse shape in the folded X-ray light curve (0.15-2 keV) is asymmetric, with statistically significant contributions from up to five leading harmonics. Pulse profiles at two different energy ranges differ slightly: the profile is asymmetric at low energies, 0.15-1 keV, while at higher energies, 1-2 keV, it has a nearly sinusoidal shape. 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The pulse shape in the folded X-ray light curve (0.15-2 keV) is asymmetric, with statistically significant contributions from up to five leading harmonics. Pulse profiles at two different energy ranges differ slightly: the profile is asymmetric at low energies, 0.15-1 keV, while at higher energies, 1-2 keV, it has a nearly sinusoidal shape. 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The X-ray spectrum can be described by a power-law model with a relatively steep photon index [Gamma] approximately 3 or by a combination of thermal and non-thermal components, e.g., a power-law component with fixed photon index [Gamma] = 2 plus a blackbody component with a temperature of kT = 0.11 keV. The two-component model appears more reasonable considering different estimates for the hydrogen column density N sub(H). The non-thermal X-ray efficiency in the single power-law model is [eta] super(PL) sub(1-10 keV) = L super(PL) sub(1-10 keV)/E ~ 0.003, higher than in most other X-ray-detected pulsars. In the case of the combined model, the non-thermal and thermal X-ray efficiencies are even higher, [eta] super(PL) sub(1-10 keV) ~ [eta] super(bb) sub(PC) ~ 0.006. We detected X-ray pulsations at the radio period of P approximately 0.808 s with significance of approximately 7[sigma]. The pulse shape in the folded X-ray light curve (0.15-2 keV) is asymmetric, with statistically significant contributions from up to five leading harmonics. Pulse profiles at two different energy ranges differ slightly: the profile is asymmetric at low energies, 0.15-1 keV, while at higher energies, 1-2 keV, it has a nearly sinusoidal shape. The radio pulse peak leads the 0.15-2 keV X-ray pulse peak by [Delta][phi] = 0.06 + or - 0.03.</abstract><cop>United States</cop><doi>10.1088/0004-637X/761/2/117</doi><tpages>10</tpages></addata></record>
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subjects	ASTROPHYSICS ASTROPHYSICS, COSMOLOGY AND ASTRONOMY ASYMMETRY COSMIC PHOTONS Density GAMMA ASTRONOMY HARMONICS HYDROGEN KEV RANGE Mathematical models Photons PULSARS PULSATIONS PULSES Radio RADIOASTRONOMY STARS VISIBLE RADIATION X RADIATION X-RAY SPECTRA X-rays XMM (spacecraft)
title	XMM-NEWTON OBSERVATION OF THE VERY OLD PULSAR J0108–1431
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