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ANTARES/IceCube Multi-Messenger projects Jürgen Brunner CPPM Image credit: Heidi Sagerud (IRAP,Toulouse) 1.

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Presentation on theme: "ANTARES/IceCube Multi-Messenger projects Jürgen Brunner CPPM Image credit: Heidi Sagerud (IRAP,Toulouse) 1."— Presentation transcript:

1 ANTARES/IceCube Multi-Messenger projects Jürgen Brunner CPPM Image credit: Heidi Sagerud (IRAP,Toulouse) 1

2 Multi-messenger programs online and offline HE neutrinos UHECR Auger UHECR Auger Gravitational Waves Virgo / Ligo Gravitational Waves Virgo / Ligo Optic / X-ray TAROT,MASTER, ROTSE / Swift, ZADKO Optic / X-ray TAROT,MASTER, ROTSE / Swift, ZADKO GeV-TeVγ-rays Fermi / HESS… GeV-TeVγ-rays Fermi / HESS… 2 2  Markus Ahlers

3 Multi-messenger programs 3 Time-dependent searches: - GRB [Swift, Fermi, IPN] - Micro-quasar and X-ray binaries [Fermi/LAT, Swift, RXTE] - Flares of blazars [Fermi/LAT, IACT, TANAMI…] - Flares of the Crab [Fermi/LAT] - Supernovae Ib,c [Optical telescopes] Multi-messenger correlation: - Correlation with the UHE events [Auger] - Correlation with the gravitational wave [Virgo/Ligo] - 2pt-correlation with 2FGL catalogue, loc. galaxies, BH… Real-time analysis: - Follow-up of the neutrino alerts with optical telescopes [TAROT, ZADKO, MASTER, PTF] and X-ray telescope [Swift/XRT] and Gamma ray telescope [HESS, VERITAS, MAGIC] - Online search of fast transient sources [GCN] 3

4 Gravitational Waves & Neutrinos 4  Bruny Baret

5 Sensitivities 5

6 Auger & Telescope Array Event samples – Auger : 231 events E > 52 EeV 2004-2014 – ANTARES (2007-2008) : 69 Auger event (2004-2009) – TA : 87 events E > 57 EeV 2008-2014 Magnetic deflection < 3 0 6  Mohamed Rameez

7 Cosmic Ray Correlation 7 HESE Muons & 9 HE upgoing muons above 100 TeV 39 Cascades Several correlation studies 7 arXiv:1405.5303 x: Tracks +: Cascades arXiv:1507.04005

8 Cosmic Ray Correlation Cascades Incompatible with 3.3σ post-trial with isotropic distribution of Cosmic rays 8 Compute the number of UHECR-neutrino pairs as a function of the angular separation in the data and compare it with expectations from an isotropic distribution of UHECRs

9 Real Time Alert Sending Follow-up of the neutrino alerts with optical telescopes [TAROT, ZADKO, MASTER, PTF] X-ray telescope [Swift/XRT] Gamma-Ray telescope [HESS, VERITAS, MAGIC] 9

10 IceCube Followup scheme 10 Main trigger: - doublet: 100sec & 3.5 0 - PTF (9/yr) & Swift (7/yr) FoV 2.3x3.5 0 Rmag < 21, 1.2m mirror No prompt observations  Thomas Kintscher

11 Antares Followup scheme Astroparticle Physics 35 (2012) 530-536, arXiv:1103.4477 Optical telescopes ν ANTARES Neutrino Telescope Optical images Real time ANTARES Shore Station: Trigger decision On-line reconstruction Alert message (GCN format) 4 types of triggers: - doublet (0.04/yr) - single HE (12/yr) - single VHE (6/yr) - single + loc galaxy directions (12/yr) 11 FoV 1.9x1.9 0 Rmag < 18, 0.2m mirror prompt observations  Aurore Mathieu

12 Alerts for Optical Followup Online processing: Angular performances: - Triggering & online reconstruction: ~3-5 s - Alert transmission: ~1-10 s depending on the telescope response - Telescope slewing: ~1-5 s Minimum delay between the 1 st image and the neutrino: ~20 s 1.9° PSF trigger HE Trigger Angular resolution Fraction events in fov Muon contamination Mean energy HE0.25-0.3° 96% (GRB) 68% (SN) <0.1%~7 TeV Directional0.3-0.4° 90% (GRB) 50% (SN) ~2%~1 TeV 12 Average rate : 2 alerts per month

13 Followup Optical Telescopes 13

14 X-Ray Followup with Swift - ANTARES 6 alerts per year sub-sample of High Energy event Average Neutrino energy 50 TeV PSF : ~20 arcmin Delay of observation ~6h Image: 2 x 2 tiles of 2ks exposure each  Sensitivity: 2 10 -13 erg/cm 2 /s  4 tiles cover 48 arcmin fov 14 Further observation if variable object above ROSAT catalogue limit is found

15 X-Ray Followup with Swift - IceCube 15 7 tiles instead of four due to slightly worse angular resolution of doublets 1.2 0

16 TAToO: observation strategy Prompt observationsFollow-up observations NEUTRINO ALERT ! T(<1day) T+7 T+9 T+14-17T+27-28 T+45 T+60 16

17 17 High variability on the minute/hour timescale Images < 24h Analysis night by night: no co-addition Optical counterpart search: Two criteria to select a candidate: 1) New source 2) Magnitude variation > 0.5 Light curves with at least two points TAToO: GRB search

18 18 Alert summary Antares since 2009 165 to optical telescopes 10 to Swift High Energy Alerts Directional alerts IceCube 2010 - 2014 31 to PTF 21 to Swift

19 19 PRELIMINARY → Comparison with optical afterglow light curves Grey: 158 optical afterglow lightcurves detected from 1997 to 2014 (Kann). Fast followup: GRB excluded Slow followup: no constraint ~95% ~70% ~3% ~35% ~20s ~1m ~10m ~1h Several hours ANTARES: GRB search results

20 20 TAToO limits → 10 alerts sent to Swift → No X-ray counterpart associated to our neutrino alerts → Upper limits on transient sources magnitude XRT LC 2007-2015 689 X-ray afterglow light curves detected by Swift/XRT from 2007 to 2015 ANTARES: GRB search in X-Ray PRELIMINARY Time to send the alert: ~20 s Time to process the alert by XRT: few hours 1h 15h 75% 40%

21 Gamma Ray Followup IceCube Started operation in March 2012 Accept neutrinos close to predefined list of know sources 21 sources in Northern sky selected (AGNs) Alert rate: MAGIC : 1 / year, VERITAS : 3 / years 13 alerts have been sent to MAGIC or VERITAS  so far no Gamma counterpart found Situation ANTARES : MoU with HESS signed Up to 3 alerts per year accepted 21

22 Gamma Ray Followup IceCube Most significant alert: 2012/11/09 6 neutrinos in 4 days around source -log 10 (pretrial p-value) = 4.6 VERITAS : no significant gamma ray emission 22

23 Gamma Ray Followup IceCube 3 Northern sky HESE Muons & 20 HE upgoing muons Checked with VERITAS 40 hours observation No significant detection of VHE Gamma rays But : many months after neutrino time  go to real time 23 arXiv:1405.5303 x: Tracks +: Cascades arXiv:1507.04005  Jon Dumm

24 24 Concept : Combine several sub-threshold (multi-messenger) observations into significant signal  Doug Cowen

25 AMON : Status of Participation 25

26 ANTARES as Observatory Alert receiving & on-line analysis : To have a fast answer to any transient astrophysical phenomena To have a more complete follow-up program if we find some interesting signal (for example, for a GRB, obtain the redshift or the host environment properties, or trigger TeV observation by HESS/MAGIC/VERITAS in case of a flare…) Generalization of the ToO program What sources ? 26 Fast transient sources [few seconds to few minutes]: GRB, SGR… => Phenomena detected by X-ray satellites (Swift, Konus…) => Alerts distributed by the GCN to the whole world

27 Online physics analysis Alert data stream signal, ΔT background extracted from the data + check of the stability of the event rate Simplifications with respect to an offline analysis ? - Nominal ANTARES detector geometry - Online charge calibration - Few data quality parameters - Not final parameters for the transient (not always the most refined position, nature, duration…) Information available in real-time? - BBFit and AAFit events (after a pre-filtering of BBFit, i.e. 1ev/min) - Sub-sample of selected TAToO events - GCN notices for Fermi/GBM, Swift/BAT, Integral, IPN (Konus-Wind…) 27

28 Online physics analysis Alert data stream signal, ΔT background extracted from the data + check of the stability of the event rate Case of GRB: ongoing: binned analysis  Time window: Max(T90,1000s) search window: [T 0 -250s,T 0 +750s]  Search cone: Max(2°,Fermi GBM error)  Event selection: upgoing + Λ>-5.4 + agreement between the 2 reconstructions Example of PSF 2o2o 28

29 Online physics analysis 29

30 Online physics analysis Alert On-line analysis Std off-line unbinned analysis + offline calib + refined trigger inputs few sec few days GCN few sec Above Xσ REAL-TIME analysis OFFLINE analysis Apply stacking method for the new dataset at one or two years basis (cf AGN’s flare or GRB analysis) + special analysis  Method well adapted to study individual GRB  Method well adapted to study GRB population 30

31 Online search September 2013 to May 2014 : 224 GCN alerts analysed 57 Integral → 55 analyzed 44 Swift → 43 analyzed 123 Fermi GBM → 114 analyzed 212/224 → more than 95% efficiency Online physics analysis - Results 31 No correlated neutrinos found

32 ANTARES as Observatory Alert receiving & raw data buffering 1)GRB alerts via GCN -store 2min of unfiltered raw data -Operational since 2008 -physics analysis based on these low-threshold data still to come 2)SuperNovae via SNEWS -Store unfiltered coincidence data (L1) for 30min -Operational since Feb 2012 -No alert yet 32

33 IceCube SuperNova Detection 33 Chance probability 1.4% == 2.6σ SN age : 169 days, Neutrino predictions ~10 -3

34 Recent Alert 01/09/2015 07:38 High Energy event Energy estimate: – 50-100 TeV Sent to Swift & Master Observation after 9h Swift XRT, 10h MASTER 34

35 Follow-up Swift XRT 35 Non catalogued X-Ray source found above ROSAT limit  ATel #7987, GCN #18231 X-Ray source coincides with star – USNO-B1 : 0626-0501169 (Rmag = 12.6)

36 Follow-up Swift XRT Neutrino Alert First observation 10h later ATel & GCN 36

37 Optical Followup MASTER (x+11h) ANTARES M4 37

38 Multi Wavelength Observations 11 ATels & 5 GCN circulars within few days Optical – MASTER, Pan-STARRS Infrared/Optic (spectral analysis) – NOT, SALT, WiFES, CAHA, Kepler 2, CAHA, LSGT, Nishi- Harina NIR, VLT/X-Shooter X-Ray – GBM, MAXI, Integral Radio – Jansky VLA Gamma Ray – Contact with Fermi-LAT, HESS, HAWK 38

39 Conclusion Multi-Messenger Analyses become more and more important both or IceCube & ANTARES Various Results Combining Neutrino Results with Optical, X-ray, Gamma-Rays, Gravitaitonal Waves adnd UHE Cosmic Rays Real Time Alert Systems operational with optical telescopes, X-Ray satellies and Gamma rays telescopes Eagerly awaiting first significant coincidences 39

40 Backup 40

41 Multi-messenger correlation - Correlation with the UHE events [Auger] - Correlation with the gravitational wave [Virgo/Ligo] - 2pt-correlation with 2FGL catalogue, loc. galaxies, BH…] 41

42 Correlation with Auger UHE events  Optimum search in a cone of 4.9º around each Auger sources  No correlation observed (deficit at 1.4 sigma)  Upper-Limit: 5.010 -8 GeV.cm -2.s -1 Analysis performed with 2007-08 data: - Antares: 2190 events - Auger: 69 events S. Adrián-Martínez et al. ApJ 774 (2013) 19 42

43 2-pt correlation [2007-10] ANTARES: nHit weights 2FGL: gamma-ray flux (1-100GeV) 1873 sources Post-trial p-value 68% for angles < 0.6° ANTARES: nHit weights GWGC: D -2 weighting ~53000 loc. gal. Post-trial p-value 96% for angles < 0.3° 2-pt correlation function: F. Schüssler, ICRC2013 43

44 Correlation with Virgo/Ligo GW 1 st search 2007 data: 2nd search 2009-10 data: - Optimized event selections on both side - Improved likelihood analysis T. Pradier, ICRC2013 S. Adrian-Martinez et al., JCAP 06 (2013) 008 44

45 Time dependent searches - GRB [Swift, Fermi, IPN] - Micro-quasar and X-ray binaries [Fermi/LAT, Swift, RXTE] - Flares of blazars [Fermi/LAT, IACT, TANAMI…] - Flares of the Crab [Fermi/LAT] - Supernovae Ib,c [Optical telescopes] 45

46 Search for v from GRB o Analysis of GRBs from late 2007 – 2011: 296 long GRBs, Total prompt emission: 6.6 hours Information from FERMI/SWIFT/GCN o GRB simulations of expected neutrino fluence:NeuCosmA [Hümmer et al. (2010)] and Guetta [Guetta et al. (2004)] o Likelihood analysis & quality cut optimized for NeuCosmA & highest signal discovery probability o No events found within 10° window from GRB Expected: 0.48 (Guetta), 0.061(NeuCosmA) o Dedicated analysis for very peculiar: GRB080916C, GRB110918A, GRB130427 Grey: first ANTARES limit (40 GRBs, 2007)  JCAP 03(2013) 006 Black: IceCube IC40+59 (215 GRBs) PRELIMINARY 46

47 Search for v from microquasars Six micro-quasars with X-ray or γ-ray outbursts in the 2007-2010 satellite data: Circinus X-1, GX339-4, H 1743-322, IGRJ17091-3624, Cygnus X-1, Cygnus X-3 Analysis of the 6 micro-quasars: For 4 black hole binaries ν -search split in two:  During hard X-ray states : “slow” steady jet  During transition hard→soft : “fast” discrete ejection Cyg X-3 : γ-ray outburst using Fermi/LAT data Cir X-1 : X-rays + orbital phase/jet connection GX339 47

48 Search for v from microquasars No neutrino found in time coincidence with microquasars => Upper-limit on the neutrino flux (F.C. 90%) Model: Levinson, Waxman (2001), Distefano (2002) assuming a flux 48

49 Search for v from AGN flares First analysis: selection of 10 Fermi flaring blazars [2008]: => Astropart. Phys. 36 (2012) 204 Updated analyis: selection of Fermi flaring blazars [2008-2012] flaring TeV blazars (HESS/MAGIC/VERITAS) => D. Dornic, A. Sanchez-Losa ICRC2013 - Paper in preparation Analysis of Fermi data: - Counting map + lighcurve (2deg) - Denoising LC (Maximum Likelihood Block method) - Selection of significant flares 4C +21.35 (MAGIC) 3C279 49

50 Search for v from AGN flares Unbinned searches performed [2008-2012]:  For 42 Fermi sources: no significant cluster  For the 8 TeV flares: no significant correlation  For 3C279: 2 events compatible with the source direction and time distribution. Post trial value 10% 50

51 Background suppression Atmospheric muons ~10 per second Atmospheric neutrinos few per day Cosmic neutrinos few per year (may be)  Atm muons: quite easy to remove (zenith +quality cuts)  Atm neutrinos: irreducible isotropic background, low energy 51

52 Neutrino search method Neutrino source: quite high energy and sharp directional distribution, possible specific time distribution => Search of clusters in space with a high energy content (adding the information of energy allows to gain ~25% discovery potential) 2 types of point-source analysis: - All sky search: significant cluster => 8-10 ν per source @ 5σ discov - Candidate list: 50 most promising sources => 5-6 ν per source @ 5σ discov S. Adrian-Martinez et al., Astrophysical J. 760:53(2012) 52

53 Point-source sensitivities 53

54 Neutrino search method 2 types of point-source analysis: - All sky search: significant cluster => 8-10 neutrinos per source - Candidate list: 50 most promising sources => 5-6 neutrinos per source Adding the time information: => 2-3 ν per source @ 5σ discov => Increase sensitivity by a factor 2-3 => For a very short transient (GRB), only 1 ν per source is sufficient !!! Analysis for micro-quasars, flares of AGN, supernovae, magnetar, GRB… 54

55 ATel & GCN Circular http://gcn.gsfc.nasa.gov/gcn3/18231.gcn3 http://www.astronomerstelegram.org/?read=7987 55

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