Presentation is loading. Please wait.

Presentation is loading. Please wait.

Population Studies of the Unidentified EGRET Sources In collaboration with A. V. Olinto, V. Pavlidou, C. Brown, and B. D. Fields Image Credit: EGRET Team/NASA/Honeywell.

Published byEsmond Little Modified over 8 years ago

Similar presentations

Presentation on theme: "Population Studies of the Unidentified EGRET Sources In collaboration with A. V. Olinto, V. Pavlidou, C. Brown, and B. D. Fields Image Credit: EGRET Team/NASA/Honeywell."— Presentation transcript:

1 Population Studies of the Unidentified EGRET Sources In collaboration with A. V. Olinto, V. Pavlidou, C. Brown, and B. D. Fields Image Credit: EGRET Team/NASA/Honeywell Max Q Digital Group, Angela Cheyunski Jennifer Siegal-Gaskins KICP, University of Chicago Barcelona, July 7, 2006

2 The Source Catalog http://home.uchicago.edu/~carolynb/unidentified_sources 271 sources in 3 rd EGRET catalog (Hartman et al. 1999) 121 sources still unidentified Updated listing of source identifications compiled by Carolyn Brown (University of Chicago)

3 EGRET’s Unidentified Sources blazarspulsars supernova remnants microquasars molecular clouds pulsar wind nebulae annihilating dark matter clumps? Known Galactic sources Known extragalactic sources Exotic new possibilities? e.g. Bergström et al. (1999); Calcáneo-Roldán & Moore (2000); Tasitsiomi & Olinto (2002); Ullio et al. (2002); Blasi, Olinto, & Tyler (2003); Taylor & Silk (2003)

4 Goals Are the unidentified sources galactic? Are the unidentified sources galactic? Do they include a new class of sources? Do they include a new class of sources? Contribution to the Galactic and/or extragalactic backgrounds due to unresolved sources? Contribution to the Galactic and/or extragalactic backgrounds due to unresolved sources? Predictions for GLAST Predictions for GLAST

5 A New Approach Have M31 flux upper limit  luminosity upper limit F M31 (> 100 MeV) < 1.6 x 10 -8 cm -2 s -1 (Blom et al. 1999) Expected diffuse emission due to CRs ≈ 1.0 x 10 -8 cm -2 s -1 (Pavlidou & Fields 2001) Have angular position (l,b) and fluxes of unidentified sources Need source distances to calculate total luminosity of Galactic population Assume galaxies similar to the Milky Way host comparable populations of γ-ray sources Image Credit: Jason Ware Use M31 luminosity to place limits on the MW Galactic population!

6 Assigning Distances 1) For each source: integrate mass along line of sight integrate mass along line of sight probability of distance  integrated mass probability of distance  integrated mass 2) Monte Carlo: assign a distance to each unidentified source assign a distance to each unidentified source calculate total luminosity for each realization calculate total luminosity for each realization 3) Compare total luminosities to the M31 limit Assume unidentified source population follows MW mass distribution…

7 Results: Halo Model

8 Results: Disk and Bulge Model

9 GLAST M31 detection  stronger constraints on luminosity of galactic population M31 detection  stronger constraints on luminosity of galactic population M31 spectral info  test our assumption that M31 is similar to MW in gamma-ray emission M31 spectral info  test our assumption that M31 is similar to MW in gamma-ray emission More sources  better isotropy tests More sources  better isotropy tests Image Credit: General Dynamics C4 Systems

10 Future Directions How many unidentified sources can be in our halo? How many unidentified sources can be in our halo?  Repeat Monte Carlo for small numbers of randomly selected objects Determine likely object classes Determine likely object classes  Use spectral indices and variability along with angular position How many more blazars and pulsars will GLAST see? How many more blazars and pulsars will GLAST see?  Extrapolate from known populations + our determined object classes Implications for Galactic and extragalactic backgrounds Implications for Galactic and extragalactic backgrounds  Backgrounds will be reduced when GLAST resolves previously unresolved sources

11 Conclusions Unidentified source populations: Unidentified source populations: very few can be in halo very few can be in halo could be all disk/bulge sources could be all disk/bulge sources could be extragalactic could be extragalactic Further work will predict: Further work will predict: class of each source class of each source (location + spectral info + variability) how many new sources of each class GLAST will see how many new sources of each class GLAST will see (extrapolating from known and expected populations) GLAST will: GLAST will: test whether M31 is similar to the MW test whether M31 is similar to the MW place stricter limits on the nature of the unidentified sources place stricter limits on the nature of the unidentified sources better determine the G and EG backgrounds better determine the G and EG backgrounds

12 Disk/Bulge Sources – Isotropy

Download ppt "Population Studies of the Unidentified EGRET Sources In collaboration with A. V. Olinto, V. Pavlidou, C. Brown, and B. D. Fields Image Credit: EGRET Team/NASA/Honeywell."

Similar presentations

P.Tisserand Rencontres du Vietnam 2006 1 Final results on galactic dark matter from the EROS-2 microlensing survey ~ 850 000 images processed - 55 million.

P.Tisserand Rencontres du Vietnam Final results on galactic dark matter from the EROS-2 microlensing survey ~ images processed - 55 million.
Survival or disruption of CDM micro-haloes: implications for detection experiments Collaborators: Oleg Y. Gnedin, Ben Moore, Jürg Diemand and Joachim Stadel.

Survival or disruption of CDM micro-haloes: implications for detection experiments Collaborators: Oleg Y. Gnedin, Ben Moore, Jürg Diemand and Joachim Stadel.
The Kavli FoundationThe National Science Foundation Unidentified EGRET Sources and the Extragalactic Gamma-Ray Background Vasiliki Pavlidou University.

The Kavli FoundationThe National Science Foundation Unidentified EGRET Sources and the Extragalactic Gamma-Ray Background Vasiliki Pavlidou University.
The Kavli FoundationThe National Science Foundation Guaranteed Unresolved Point Source Emission and the Gamma-ray Background Vasiliki Pavlidou University.

The Kavli FoundationThe National Science Foundation Guaranteed Unresolved Point Source Emission and the Gamma-ray Background Vasiliki Pavlidou University.
Deciphering the Gamma-Ray Sky: GeV Astronomy in the Era of GLAST Vasiliki Pavlidou Collaborators: Carolyn Brown Tonia Venters Jennifer Siegal-Gaskins Angela.

Deciphering the Gamma-Ray Sky: GeV Astronomy in the Era of GLAST Vasiliki Pavlidou Collaborators: Carolyn Brown Tonia Venters Jennifer Siegal-Gaskins Angela.
The Galactic diffuse emission Sabrina Casanova, MPIK Heidelberg XXth RENCONTRES DE BLOIS 18th - 23rd May 2008, Blois.

The Galactic diffuse emission Sabrina Casanova, MPIK Heidelberg XXth RENCONTRES DE BLOIS 18th - 23rd May 2008, Blois.
Combined Energy Spectra of Flux and Anisotropy Identifying Anisotropic Source Populations of Gamma-rays or Neutrinos Sheldon Campbell The Ohio State University.

Combined Energy Spectra of Flux and Anisotropy Identifying Anisotropic Source Populations of Gamma-rays or Neutrinos Sheldon Campbell The Ohio State University.
X-ray observations of Dark Particle Accelerators Hiro Matsumoto (KMI, Nagoya University) 1.

X-ray observations of Dark Particle Accelerators Hiro Matsumoto (KMI, Nagoya University) 1.
Dark Matter Annihilation in the Milky Way Halo Shunsaku Horiuchi (Tokyo) ------- Hasan Yuksel (Ohio State) John Beacom (Ohio State) Shin’ichiro Ando (Caltech)

Dark Matter Annihilation in the Milky Way Halo Shunsaku Horiuchi (Tokyo) Hasan Yuksel (Ohio State) John Beacom (Ohio State) Shin’ichiro Ando (Caltech)
High Energy Neutrinos from Astrophysical Sources Dmitry Semikoz UCLA, Los Angeles & INR, Moscow.

High Energy Neutrinos from Astrophysical Sources Dmitry Semikoz UCLA, Los Angeles & INR, Moscow.
Upper Limit on the Cosmological  - Ray Background Yoshiyuki Inoue (Stanford) Kunihito Ioka (KEK) 1.

Upper Limit on the Cosmological  - Ray Background Yoshiyuki Inoue (Stanford) Kunihito Ioka (KEK) 1.
Moriond 04/02/09Benoit Lott New insight into Gamma-ray Blazars from the Fermi-LAT Benoît Lott CEN Bordeaux-Gradignan on behalf of the Fermi-LAT collaboration.

Moriond 04/02/09Benoit Lott New insight into Gamma-ray Blazars from the Fermi-LAT Benoît Lott CEN Bordeaux-Gradignan on behalf of the Fermi-LAT collaboration.
TeV Particle Astrophysics, Venice, August 29, 2007J. Siegal-Gaskins1 Signatures of ΛCDM substructure in tidal debris Jennifer Siegal-Gaskins in collaboration.

TeV Particle Astrophysics, Venice, August 29, 2007J. Siegal-Gaskins1 Signatures of ΛCDM substructure in tidal debris Jennifer Siegal-Gaskins in collaboration.
Cosmology with the extragalactic gamma-ray background Vasiliki Pavlidou University of Chicago.

Cosmology with the extragalactic gamma-ray background Vasiliki Pavlidou University of Chicago.
Eiichiro Komatsu University of Texas at Austin A&M, May 18, 2007

Eiichiro Komatsu University of Texas at Austin A&M, May 18, 2007
EGRET unidentified sources and gamma-ray pulsars I. CGRO mission and the instrument EGRET and it’s scientific goals II. Simple introduction of EGRET sources.

EGRET unidentified sources and gamma-ray pulsars I. CGRO mission and the instrument EGRET and it’s scientific goals II. Simple introduction of EGRET sources.
Annihilating Dark Matter Nicole Bell The University of Melbourne with John Beacom (Ohio State) Gianfranco Bertone (Paris, Inst. Astrophys.) and Gregory.

Annihilating Dark Matter Nicole Bell The University of Melbourne with John Beacom (Ohio State) Gianfranco Bertone (Paris, Inst. Astrophys.) and Gregory.
X-ray observations of Dark Particle Accelerators Hiro Matsumoto (KMI, Nagoya University) 1.

X-ray observations of Dark Particle Accelerators Hiro Matsumoto (KMI, Nagoya University) 1.
Challenges in Revealing Dark Matter from the High Energy Gamma-Ray Background (Continuum) Ranga-Ram Chary Spitzer Science Center, Caltech

Challenges in Revealing Dark Matter from the High Energy Gamma-Ray Background (Continuum) Ranga-Ram Chary Spitzer Science Center, Caltech
Galactic Diffuse Gamma-ray Emission, the EGRET Model, and GLAST Science Stanley D. Hunter NASA/GSFC Code 661

Galactic Diffuse Gamma-ray Emission, the EGRET Model, and GLAST Science Stanley D. Hunter NASA/GSFC Code 661

Similar presentations

Ads by Google