Indirect Dark Matter Searches in the Milky Way Center with the LAT on board Fermi

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Indirect Dark Matter Searches in the Milky Way Center with the LAT on board Fermi B. Cañadas, A. Morselli and V. Vitale on behalf of the Fermi LAT Collaboration

Outline Gamma rays from Dark Matter Dark Matter distribution in the GC Signatures from DM annihilation The Galactic Center Other wavelengths & previous observations Diffuse emission & point sources Likelihood analysis of the Galactic Center Summary and Conclusions

Gamma rays from annihilating Dark Matter Dark matter particles might produce gamma rays by self-annihilation. Gamma-ray continuum with cut-off at DM mass from hadronization Gamma-Gamma production suppressed (10-3 -10-4 )

Gamma rays from decaying dark matter Pseudo-stable DM particles might decay in gamma rays DM life-time in the order of 10 27 s Bertone et al.,2007

Dark Matter density profile DM density profile fundamental for indirect gamma-ray detection DM distribution not experimentally known in the GC region Parametrization from N- Body Simulations a=1.5 b=3 g=1.5 rs = 30 kpc a=1 b=3 g=1 rs = 20 kpc a=2 b=2 g=0 rs = 5 kpc a=0.17 rs = 20 kpc

Dark Matter signature Quite distinctive spectrum (no power-law) Dark Matter annihilation emission is not point-like.... nor isotropic or Galactic-Ridge like (Dodelson et al 2007, arxiv0711:4621) Optimal Region of Interest from 0.5 to 10 deg Optimal energy threshold from 0.1 to 1 GeV

The Galactic Center - Other Wavelengths: TeV - TeV Galactic Center Source: Detected by CANGAROO [Tsuchiya et al. 2004], VERITAS [Kosack et al. 2004], HESS [Aharonian et al. 2004] and MAGIC [Albert et al. 2006] Energy spectrum compatible with both a power law spectrum with an exponential cutoff and a broken power law spectrum. [Aharonian et al. 2009] Position of HESS J1745-290 agrees well with location of other two counterpart candidates, Sgr A and G359.95-0.04 [van Eldik et al. 2007] Diffuse TeV emission appears spatially correlated with dense cores of molecular clouds

The Galactic Center - Previous GeV Experiments: EGRET- 3EG J1746-2851 GeV point source of detected by EGRET [Mayer-Hasselwander et al. 1998] No firm identification with sources in other frequency bands [Pohl 2005, ApJ 626,174]

The Galactic Center - First year Fermi Catalog - All-sky intensity map photons above 300 MeV ph/m2/s/sr Fermi 1st year Catalog (Astrophys.J.Suppl. 188:405-436,2010) 1451 sources in the 100 MeV to 100 GeV energy range, significance over 4σ 11 sources within/very close to the RoI Modelled as Point-Like Power Laws

The Galactic Center - Galactic and Extragalactic Background - Galactic Diffuse Emission +3 12 month data set, diffuse class, front only, smoothed with σ = 0.1 Modelled using the GALPROP code, the realization used was gll iem 54 87Xexph7S. 5 355 During the likelihood maximization only the normalization of the GALPROP model is varied, not its components Extragalactic Diffuse -3 +3 counts/pixel Modelled as an isotropic emission with a template spectrum.

Preliminary Analysis 7 x 7 Region Of Interest centered at RA=266.46 Dec=-28.97 11 months of data events from 400 MeV to 100 GeV IRFs Pass6_v3 Diffuse Class events, converting in the front part of the tracker Model of the Galactic Center includes: 11 sources from Fermi 1 st year Catalog (inside or very near the ROI) Galactic and Extragalactic Diffuse Background Binned likelihood analysis using the GTLIKE tool, developed by the Fermi/LAT collaboration

arxiv:0912.3828 Preliminary Analysis - Results - Spectra from Likelihood analysis Observed Data Sum of all components Galactic Diffuse Emission Detected Sources Isotropic Extragalactic Residuals The residuals suggest an unmodelled excess in the 2-5 GeV range Blue area shows systematic errors on the effective area

Summary and Conclusions 11 months Fermi observations of a 7 x 7 RoI centered at RA=266.46 Dec=-28.97 Modelled with 11 sources + Galactic and Extragalactic diffuse emission Model generally reproduces data well within uncertainties. The model somewhat under-predicts the data in the few GeV range (spatial residuals under investigation) Any attempt to disentangle a potential DM signal from the GC region requires a detailed understanding of the conventional astrophysics and instrumental effects More prosaic explanations must be ruled out before invoking a contribution from dark matter if an excess is found (e.g. diffuse emission, unresolved sources ) Analysis in progress to updated constraints on annihilation cross section

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