1. Point source analysis: candidate source list, extended sources and energy Claudio Bogazzi AWG Videoconference 13/04/2011

2. Outline Candidate source list: review, feedbacks and other experiments Extended sources: how to threat them Energy information: update

3. New candidate source list The idea is to update the source list including the latest sources detected by gamma rays experiments. Old list discussed in ANTARES-PHYS/2009-002 (S. Toscano) 1 st attempt: made by JP and I, presented during last AWG videoconference. Now wiki page avaialble: http://antares.in2p3.fr/internal/dokuwiki/doku.php?id=new_ca ndidate_sources_list http://antares.in2p3.fr/internal/dokuwiki/doku.php?id=new_ca ndidate_sources_list To summarize: 3 cuts 1) Source visible from ANTARES 2) No PWN 3) Angular distance > 3° Total of 51 (TeV) sources: 20 already in the previous list + 31 new ones

4. * new * old

5. What’s new… Discussion just started. Everybody agrees it’s time to update the list. Still some points need to be clarify (see next slide). Few feedbacks from the e-mail sent to the AWG mailing list (thanks to Teresa, Juande & Mathias for their reply) Let’s try to summarize a bit…but do not forget that the candidate search is a “SECONDARY” approach. If there is an excess of the events somewhere in the sky we want to see it with the FULL SKY approach.

6. Crucial points 1How many sources? Remember the number of sources is important for the trial factor. 50? 2Do we want to include also GeV sources? If the answer is YES, than we have to decide from which catalogue we should start. 1Do we want to exclude extended sources? See later about this point… After we clarify these 3 points, than we can think which cuts apply.

7. Example: some numbers Suppose we want to include GeV sources AND we want to analyze separately the extended sources. Example: 10 GeV sources + 10 extended sources. Let’s keep entirely the previous list: 24 TeV sources (7 extended) How many sources in total? Example: 50. 24 old + 26 new, between these 26 new sources 3 should be extended and 10 should be 10 sources.

8. Feedbacks Damien: during last AWG videoconference he suggested to do NOT limit the list to only TeV sources but to include also some GeV ( in principle ok, but…how many? Where do we look? ) Damien: do you make a distinction between extended and not-extended sources? Not for the moment. a) We can remove the extended sources from our list. b) We can include the extended sources but then we need to modify the likelihood… (see later) c) We can just ignore this distinction… For the moment we will run our algorithm on some well known extended sources and see if we can see something…(on the to-do list)

9. Feedbacks Mathias: “very important to consider GeV sources in the new list”. Most of the quasars detected by FERMI has a large redshift that does not allow any TeV emission. Compiling a sample of 50 FERMI-detected radio extragalactic jets (quasars, BL lacertae and radio galaxies) based on the TANAMI sample which is not yet published (need to keep in contact with the FERMI/LAT collaboration) + a sample of x-ray sources is on the to-do list. My opinion: it seems there is too much work that goes well further the purpose of our intentions. Maybe a subsample of this list (only few sources) would be better.

10. Feedbacks Teresa: more than 100 sources to really get into trial factor problems. The extra flux required to achieve a stricter p-value is not linear with the number of sources in the list. Take care of possible bias when combining samples Better to keep the previous list, adding new sources instead of re-make a new list from the beginning.

11. Other experiments AMANDA: Final analysis (2009) with 26 sources (no explanations on the selection) ICECUBE: IC22 with 28 sources, IC40 with 39 sources (28 from the Northern Sky + 10 from the Southern Sky + hottest spot from IC22) SK: “16 objects identified in various publications as plausible bright sources of astrophysical neutrinos. […] Candidates include magnetars, plerions, SNR and μ-quasars”

12. Now is the first time they combine detectors IC40+IC59. In this case is important to be careful and try to avoid any possible bias, as samples are not independent: do not use information from a first analysis to remove any source in the list. IC40

13. General opinion The selection of the candidates list is very subjective. There is not a single way to do it and it can be extremely different from experiment to experiment. We know it’s an important topic but it should be not forgiven that it’s the full sky search our best way to look for an excess of events in the sky (since, by definition, we look at the whole sky) It would be great if at the end of this videoconference we all agree at least with the number of sources to include.

14. The algorithm β event source F is the point spread function. B is the background rate. test statistic If we want to include an energy estimator: F  F x P ( E i ) B  B x P( E i ) -- atm nu -- E -2 nu

15. Extended sources If we want to include the source extension than we have to modify F. Source “considered” as a 2 D Gaussian of width σ s Convolve the point spread function with the source distribution x 1-D example σsσs

16. Energy information Tested the muon energy, smeared with a gaussian (the sigma of this gaussian should be our uncertainty on the energy estimation) E -2 Atmospheric nu As expected, the effect of a sigma = 0.1 is negligible.

17. Energy information Discovery potentials for different energy muons smearing Comparison with the other energy informations

18. Energy information Energy distribution: atmospheric cosmic smeared (  =0.3) atms. Discovery potentials

19. Tabella con valori per 3 sigma and 5 sigma…

20. Conclusions New candidate source list: … Extended sources: if we want to make a separate analysis then in principle we know how to do it. Energy information: muon energy tested, results look promising. Status of the analysis: still some issues to decide (run selection, systematic, choice of the energy estimator) but in general it is going well and we still plan to ask the unblind before summer conferences (-> ICRC) and of course report the full status at the next meeting in Moscow.

21. BACK UP

22. Thesis: http://w3.iihe.ac.be/Publications/Thesis/labare.pdf 26 sources in the Analysis using 2000-06 data

23. IC40 : 39 source selected for a candidate list search

24. Nhits information on Q 24 β Basically we multiply both the likelihood for the signal + background case and the likelihood for the background only for the probability to have some hits according with the relative spectrum (E-2 for the signal+bkg lik and atmospheric for the bkg lik) Note that, for the background-only likelihood we should use the distribution of the number of hits from REAL data.

25. 25 For example, for 100 hits these are the 2 probabilities that we need.