H.E.S.S. multi-messenger and real-time follow-up observations Fabian Schüssler (Irfu/CEA-Saclay) on behalf of the H.E.S.S. collaboration TevPA 2015, Kashiwa
The H.E.S.S. multi-messenger and GRB team A. Balzer, E. Bissaldi, F. Brun, P. Brun, W. Domainko, M. Füssling, C. Hoischen, P. O Brien, R.D. Parsons, G. Pühlhofer, A. Reimer, G. Rowell, F. Schüssler, P.H.T. Tam, S. Wagner
Overview The H.E.S.S. instrument H.E.S.S.-II Multi-Messenger program Neutrinos ANTARES hotspot IceCube HESE events ToO/alert follow-up ToO follow-up performance GRBs FRBs Gravitational waves Neutrinos Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 3
The H.E.S.S. experiment H.E.S.S. phase I four 12m telescopes FoV 5deg energy threshold ~100GeV angular resolution <0.1deg H.E.S.S. phase II four 12m telescopes one 28m telescope (FoV 3.5deg) energy threshold ~30GeV angular resolution from 0.4 to less than 0.1deg 2012 H.E.S.S. phase I H.E.S.S. phase II Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 4
Multi-messenger program Cosmic rays no time correlation (except neutrons): waiting for a small-scale excess ;-) Gravitational waves increasing interest (Advanced Virgo/Ligo) H.E.S.S. takes part in the Virgo/Ligo EM follow-up effort follow-up difficult due to large localization uncertainties important input from additional EM detection Neutrinos ROIs neutrino hotspots IceCube HESE events ToOs Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 5
Multi-messenger program: Neutrino hotspots Antares hotspot 2.2σ excess (Adrian-Martinez et al., APJ 760 (2012) 53) 2h of H.E.S.S. observations in 2013 ruling out close-by source -63 Declination (J2000) Significance Map -64-65 -66 ANTARES Hotspot 3 2 1 0-1 -2 Significance distribution 3 10 10 s -1 ] flux [TeV -1 cm -2 10 2 10 10-9 -10 10 10-11 10-12 -13 10-14 2 χ / ndf 284.9 / 172 Constant 622 ± 4.0 Mean -0.08277 ± 0.00506 Sigma 0.983 ± 0.004 Antares excess HESS upper limits (99% CL) Redshift 0.35 0.3 0.25 0.2 0.15 0.1-3 10 1-15 0.05-67 h m s 21 10 00 h m s 21 00 00 h m s m 20 50 00 20 40 00 Right Ascension (J2000) h s -16 10-4 -3-2 1-1 0 1 2 3 104 Energy [TeV] 0 1 10 Energy [TeV] FS et al., ICRC 2013, arxiv:1307.6074 Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 6
Multi-messenger program: IceCube HESE tracks H.E.S.S. observations of IceCube High Energy Starting Events track like events (angular uncertainty) H.E.S.S. visibility + constrains by other observations high energy, etc. M.G. Aartsen et al. (IceCube), PRL 113 (2014) 101101 Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 7
Dr. Strangepork Zoot IceCube Event 5 IceCube Event 18 deposited energy: 71.4 +9-9 TeV Ra=110.6deg / Dec=-0.4deg deposited energy: 31.5 +4.6-3.3 TeV Ra=345.6deg / Dec=-24.8deg H.E.S.S. observations HESS-II 28m monoscopic mode 0.9h effective livetime (acceptance corrected) H.E.S.S. observations: HESS-II observations with full 5- telescope array 9.5h effective lifetime (acceptance corrected) Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 8
IceCube HESE tracks: results FS et al., ICRC 2015, arxiv:1509.03035 IceCube 5 IceCube 18 Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 9
IceCube HESE tracks: Fermi-LAT analysis 08/2008-05/2015; P7Rep, 100MeV-300GeV FS et al., ICRC 2015, arxiv:1509.03035 counts model residuals Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 10
IceCube HESE tracks: limits FS et al., ICRC 2015, arxiv:1509.03035 IceCube 5 IceCube 18 caveat: EBL absorption of gamma rays Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 11
Future of the H.E.S.S. neutrino program: alerts and ToOs Interpretation of potential gamma-ray source within the neutrino error box difficult (has to rely on basic energetics and follow-up observations) Space and time correlations would provide smoking gun signal for joint emission processes => CR interaction/acceleration IceCube real-time alerts on HE/HESE events in preparation expected delays O(10min) ANTARES online reconstruction and rapid alert emission: TAToO (Ageron et al., APP 35 (2012) 530) delays O(10s) Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 12
H.E.S.S. II: ToO follow-up performance main design principles of the H.E.S.S. 28m telescope large photon collection area 614 m 2 mirror area (largest IACT worldwide) rapid response time Hofverberg et al., ICRC 2013 Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 13
H.E.S.S. II: ToO follow-up performance main design principles of the H.E.S.S. 28m telescope large photon collection area 614 m 2 mirror area (largest IACT worldwide) rapid response time reverse tracking Hofverberg et al., ICRC 2013 Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 14
H.E.S.S. II: ToO follow-up performance main design principles of the H.E.S.S. 28m telescope large photon collection area rapid response time 614 m 2 mirror area (largest IACT worldwide) ToO+DAQ re-organization in 2014/2015 significant reducing overhead software overhead now: O(s) CTA requirement: <10s response time only limited by hardware slewing: O(60s) HV ramping: O(s) Camera configuration: O(s) Hofverberg et al., ICRC 2013 VoEvent alert system in preparation Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 15
GRB follow-up with H.E.S.S. extensive follow-up program during H.E.S.S. phase I (e.g. A&A 495, 505-512 (2009)) follow-up rapidity increased with H.E.S.S. II rapid slewing speed dedicated operation mode (e.g. data taking starts as soon as source enters the FoV) fully automatic repositioning after the reception of a GCN alert GRBs have highest ToO priority (following all accessible alerts) dedicated data blinding scheme in place GRB 090902B (Abdo et al. APJ 706 (2009) 138) Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 16
GRB follow-up: performance A. Balzer et al., CHEP2015 D. Parsons et al., ICRC 2015, arxiv: 1509.05191 DAQ re-organisation led to significant improvement of the response time continuous monitoring via fake GRBs : end-to-end tests of the full chain 60s Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 17
D. Parsons et al., ICRC 2015, arxiv: 1509.05191 GRB follow-up: sensitivity rapid response + best sensitivity waiting for the first detection ;-) Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 18
Fast Radio Bursts strong, millisecond radio burst of possibly extragalactic origin H.E.S.S. takes part in the SUPERB project @ Parkes first follow-up observations in 2015 analysis in progress Thornton D. et al.2013 Science 341, 53 Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 19
Gravitational Waves Advanced LIGO taking first physics data H.E.S.S. takes part in the extensive EM follow-up program localization typically poor O(100 deg 2 ) follow-up decision on case-by-case basis I. Bartos, AMON 2014 Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 20
Summary H.E.S.S. phase II: lower energy threshold and rapid response Multi-messenger program Neutrinos hotspot + HESE source searches ToO programs starting Follow-up of alerts and ToOs GRBs improved performance: average response time <60s highest priority Fast Radio Bursts Gravitational Waves Fabian Schüssler - H.E.S.S. multi-messenger and real-time follow-up observations - TeVPA 2015 21