The Kavli FoundationThe National Science Foundation Unidentified EGRET Sources and the Extragalactic Gamma-Ray Background Vasiliki Pavlidou University.

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Presentation transcript:

The Kavli FoundationThe National Science Foundation Unidentified EGRET Sources and the Extragalactic Gamma-Ray Background Vasiliki Pavlidou University of Chicago Brian Fields University of Illinois Jennifer Siegal-Gaskins University of Chicago Angela Olinto University of Chicago Carolyn Brown University of Chicago

The Kavli FoundationThe National Science Foundation GeV Diffuse Emission Origin: –Galactic –Extragalactic Nature: –Truly Diffuse Emission –Collective emission from unresolved sources Guaranteed sources of diffuse emission: –Faint, unresolved objects of known gamma-ray emitting classes (e.g.: blazars, normal galaxies, pulsars) NASA - EGRET team

The Kavli FoundationThe National Science Foundation UnID Sources & Diffuse Emission Some contribution from unIDs guaranteed: –Most numerous sources –If most unIDs are extragalactic: (see Siegal-Gaskins talk on Friday) Similar unresolved extragalactic objects contribute to EGRB –If most unIDs are Galactic: similar objects in other galaxies enhance unresolved normal galaxy contribution to EGRB Similar unresolved objects in MW contribute to diffuse Galactic emission However: uncertainties!

The Kavli FoundationThe National Science Foundation An empirical model for collective emission from unresolved unIDs Seek to answer 2 questions: 1.Numbers/Fluxes: How plausible is that unresolved unIDs, if extragalactic, have significant contribution to gamma-ray background? 2.Spectral indices: Would collective unresolved emission from unIDs be spectrally consistent with the gamma-ray background? Our approach: I know one thing, that I know nothing

The Kavli FoundationThe National Science Foundation Which resolved sources? Only use sources which to this date remain without suggested candidate for a low-energy counterpart –Many potential identifications suggested since 3rd EGRET catalog –List of still-unidentified sources maintained by Carolyn Brown: URL:

The Kavli FoundationThe National Science Foundation Power-law fit to range of fully resolved fluxes Parabolic fit to range of partially resolved fluxes Cutoff so that EGRB is not exceeded Use cumulative flux distribution of resolved objects and extrapolate to lower fluxes (cutoff so that EGRET EGRB is not exceeded) Are there enough?

The Kavli FoundationThe National Science Foundation Does the spectrum work? The spectral index distribution: Assume spectral index distribution of unresolved objects same as that of resolved objects (BUT - accounting for individual measurement errors! likelihood approach, similar to T. Venters & VP treatment of blazars)

The Kavli FoundationThe National Science Foundation unresolved unID emission Strong, Moskalenko & Reimer (2004) Sreekumar et al (1998) EGRB fit SMR (2004) EGRB SMR (2004) systematics Results

The Kavli FoundationThe National Science Foundation GLAST! Whatever the nature of the EGRET unIDs, GLAST will resolve many more –if unresolved unIDs currently responsible for considerable fraction of EGRB:  associated reduction of GLAST EGRB –If unresolved unIDs currently responsible for considerable fraction of Galactic diffuse emission:  associated reduction of GLAST diffuse MW (GeV excess affected?)

The Kavli FoundationThe National Science Foundation Future directions Simple empirical model  unresolved unIDs have potentially significant contribution to diffuse emission, with good spectra agreement. Worth pursuing more detailed (but also more uncertain) models: –What if most of them AGN? –What if most of them associated with cosmic structure? –What if most of them Galactic?

The Kavli FoundationThe National Science Foundation Conclusions Contribution of unresolved unIDs to diffuse emission guaranteed Empirical model: –If flux distribution does not break for ~ 1 order of magnitude, enough to account for all of EGRB in low energies –If spectral index distribution same in resolved and unresolved sources, spectrum consistent with Strong et al EGRB within systematic uncertainties –Hint for other component at high energies? GLAST will determine whether most EGRET unIDs Galactic or extragalactic Future directions: specific models of unID unresolved emission

The Kavli FoundationThe National Science Foundation

The Kavli FoundationThe National Science Foundation Results Sreekumar et al 1998 Strong, Moskalenko & Reimer 2004 Max. likelihood. Sp. Ind. Dist. Max lik. mean,  2  variance Max. lik. variance,  2  mean

The Kavli FoundationThe National Science Foundation Spectral Indices & Errors of Measurements