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A Statistical Approach to Recognizing Source Classes for Unassociated Sources in the First FERMI-LAT Catalog (2012)

Thompson, D. J. ; Celik, O. ; Bonamente, E. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Fermi Large Area Telescope (LAT) First Source Catalog (1FGL) provided spatial, spectral, and temporal properties for a large number of gamma -ray sources using a uniform analysis method. After correlating with the mostcomplete catalogs of source types known to emit gamma rays, 630 of these sources are "unassociated" (i.e., have no obvious counterparts at other wavelengths). Here, we employ two statistical analyses of the primary gamma-ray characteristics for these unassociated sources in an effort to correlate their gamma-ray properties with the active galactic nucleus (AGN) and pulsar populations in 1FGL. Based on the correlation results, we classify 221 AGN-like and 134 pulsar-like sources in the 1FGL unassociated sources. The results of these source "classifications" appear to match the expected source distributions, especially at high Galactic latitudes. While useful for planning future multiwavelength follow-up observations, these analyses use limited inputs, and their predictions should not be considered equivalent to "probable source classes" for these sources. We discuss multiwavelength results and catalog cross-correlations to date, and provide new source associations for 229 Fermi-LAT sources that had no association listed in the 1FGL catalog. By validating the source classifications against these new associations, we find that the new association matches the predicted source class in approximately 80% of the sources.

Keywords: Astrophysics

Type: GSFC-E-DAA-TN9282 , The Astrophysical Journal; 753; 1; 83

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On the Phase-Averaged Spectrum of Pulsars and Shape of Their Cutoffs (2010)

Celik, O. ; Thomas, T. J.

In: Other Sources

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Publication Date: 2019-07-13

Description: All gamma ray pulsars exhibit an exponential cutoff in their spectra and for bright pulsars the statistics are sufficiently high to study the detailed shape of the cutoff. The phase averaged spectra of some pulsars exhibit a sub-exponential cutoff, not predicted by any single physical mechanism. Further studies clarified that (his gentler average cutoff is a consequence of having significant variations of the cutoff energy in the phase-resolved spectrum. In conclusion, the phase-averaged spectrum of a pulsar is not a physical quantity to test high-energy emission models.

Keywords: Astrophysics

Type: GSFC.CPR.6616.2012 , AIP Conference Proceedings; 1357; 225-228|Radio Pulsars: An Astrophysical Key to Unlock the Secrets of the Universe; Oct 10, 2010 - Oct 15, 2010; Chia, Sardinia; Italy

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Constraints On the Emission Geometries and Spin Evolution Of Gamma-Ray Millisecond Pulsars (2014)

Ferrara, E. C. ; Celik, O. ; Johnson, T. J. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Millisecond pulsars (MSPs) are a growing class of gamma-ray emitters. Pulsed gamma-ray signals have been detected from more than 40 MSPs with the Fermi Large Area Telescope (LAT). The wider radio beams and more compact magnetospheres of MSPs enable studies of emission geometries over a broader range of phase space than non-recycled radio-loud gamma-ray pulsars. We have modeled the gamma-ray light curves of 40 LAT-detected MSPs using geometric emission models assuming a vacuum retarded-dipole magnetic field. We modeled the radio profiles using a single-altitude hollow-cone beam, with a core component when indicated by polarimetry; however, for MSPs with gamma-ray and radio light curve peaks occurring at nearly the same rotational phase, we assume that the radio emission is co-located with the gamma rays and caustic in nature. The best-fit parameters and confidence intervals are determined using amaximum likelihood technique.We divide the light curves into three model classes, with gamma-ray peaks trailing (Class I), aligned (Class II), or leading (Class III) the radio peaks. Outer gap and slot gap (two-pole caustic) models best fit roughly equal numbers of Class I and II, while Class III are exclusively fit with pair-starved polar cap models. Distinguishing between the model classes based on typical derived parameters is difficult. We explore the evolution of the magnetic inclination angle with period and spin-down power, finding possible correlations. While the presence of significant off-peak emission can often be used as a discriminator between outer gap and slot gap models, a hybrid model may be needed.

Keywords: Astrophysics

Type: GSFC-E-DAA-TN17872 , The Astrophysical Journal Supplement Series; 213; 1; 6

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