INDIRECT DARK MATTER SEARCHES WITH HESS J-F Glicenstein IRFU/CEA-Saclay on behalf of the HESS collaboration.

Slides:

Advertisements

Similar presentations

Astronomical Solutions to Galactic Dark Matter Will Sutherland Institute of Astronomy, Cambridge.

Advertisements

1 st MultiDark Workshop UCM-GAE in MultiDark: Indirect searches for DM with the MAGIC Telescopes Juan Abel Barrio Universidad Complutense de Madrid, January.

Dwarf spheroidal galaxies as targets for indirect dark matter searches Ewa L. Łokas (Copernicus Center, Warsaw)

The Halo of the Milky Heidi Jo Newberg Rensselaer Polytechnic Institute.

PRESENT AND FUTURE DARK MATTER SEARCHES WITH IMAGING ATMOSPHERIC CHERENKOV TELESCOPES J-F. Glicenstein IRFU, CEA-Saclay.

Combined Energy Spectra of Flux and Anisotropy Identifying Anisotropic Source Populations of Gamma-rays or Neutrinos Sheldon Campbell The Ohio State University.

High-energy particle acceleration in the shell of a supernova remnant F.A. Aharonian et al (the HESS Collaboration) Nature 432, 75 (2004) Nuclear Physics.

Dark Matter Annihilation in the Milky Way Halo Shunsaku Horiuchi (Tokyo) Hasan Yuksel (Ohio State) John Beacom (Ohio State) Shin’ichiro Ando (Caltech)

L.S.Stark 1, M.Doro 2, H.Bartko 3, A.Biland 1, M.Gaug 2, S.Lombardi 2, M.Mariotti 2, F.Prada 4, M.Sanchez-Conde 4, F.Zandanel 2 (for the MAGIC Collaboration*)

Mathieu de Naurois, H.E.S.S.High Energy Phenomena in the Galacic Center H.E.S.S. Observations of the Galactic Center  The H.E.S.S. Instrument.

1 Search for Dark Matter Galactic Satellites with Fermi-LAT Ping Wang KIPAC-SLAC, Stanford University Representing the Fermi LAT Collaboration.

Diffuse Gamma-Ray Emission Su Yang Telescopes Examples Our work.

SLAC, June 23 rd Dark Matter in Galactic Gamma Rays Marcus Ziegler Santa Cruz Institute for Particle Physics Gamma-ray Large Area Space Telescope.

The positron excess and supersymmetric dark matter Joakim Edsjö Stockholm University

Enhancement of Line Gamma Ray Signature from Bino-like Dark Matter Annihilation due to CP Violation Yoshio Sato (Saitama University/Technical University.

CMB constraints on WIMP annihilation: energy absorption during recombination Tracy Slatyer – Harvard University TeV Particle Astrophysics SLAC, 14 July.

The Milky Way Galaxy James Binney Oxford University.

THE STRUCTURE OF COLD DARK MATTER HALOS J. Navarro, C. Frenk, S. White 2097 citations to NFW paper to date.

Significant enhancement of Bino-like dark matter annihilation cross section due to CP violation Yoshio Sato (Saitama University) Collaborated with Shigeki.

Alexander Kappes UW-Madison 4 th TeVPA Workshop, Beijing (China) Sep. 24 – 28, 2008 The Hunt for the Sources of the Galactic Cosmic Rays — A multi-messenger.

The VHE gamma-ray sky viewed with H.E.S.S. Werner Hofmann MPI für Kernphysik Heidelberg © Philippe Plailly HESS = High Energy Stereoscopic System.

The Dark Side of the Universe What is dark matter? Who cares?

Gus Sinnis RICAP, Rome June 2007 High Altitude Water Cherenkov Telescope  Gus Sinnis Los Alamos National Laboratory for the HAWC Collaboration.

High-energy electrons, pulsars, and dark matter Martin Pohl.

Detecting dark matter annihilation at the ground EAS detectors X.J. Bi (IHEP)

Cosmology with Ground-Based Cherenkov Telescopes Wei Cui (Purdue University)

Dark Matter Particle Physics View Dmitri Kazakov JINR/ITEP Outline DM candidates Direct DM Search Indirect DM Search Possible Manifestations DM Profile.

Lake Louise - February Detection & Measurement of gamma rays in the AMS-02 Detector J. Bolmont - LPTA - IN2P3/CNRS Montpellier - France.

Gamma rays annihilated from substructures of the Milky Way and Quintessino dark matter Bi Xiao-Jun Institute of High Energy Physics, Chinese Academy of.

Summary of indirect detection of neutralino dark matter Joakim Edsjö Stockholm University

Gamma-rays from Dark Matter Annihilation in Milky Way Satellites Louie Strigari UC Irvine, Center for Cosmology Getting Prepared for GLAST UCLA,

Rencontres de Moriond – Cosmology session – 2008 H.E.S.S. collaboration Matthieu Vivier M. Vivier IRFU/SPP CEA-Saclay, France Indirect searches for Dark.

Analysis methods for Milky Way dark matter halo detection Aaron Sander 1, Larry Wai 2, Brian Winer 1, Richard Hughes 1, and Igor Moskalenko 2 1 Department.

中国科学院高能物理研究所 INSTITUTE OF HIGH ENERGY PHYSICS Constraints on the cross-section of dark matter annihilation from Fermi observation of M31 Zhengwei Li Payload.

DARK MATTER & GALACTIC ROTATION 2012 ASTRO SUMMER SCHOOL.

MARCH 11YPM 2015  ray from Galactic Center Tanmoy Mondal SRF PRL Dark Matter ?

Hybrid measurement of CR light component spectrum by using ARGO-YBJ and WFCTA Shoushan Zhang on behalf of LHAASO collaboration and ARGO-YBJ collaboration.

VERITAS Observations Of M 31 and some results about my recent work

Indirect Detection Of Dark Matter

June 6, 2006 CALOR 2006 E. Hays University of Chicago / Argonne National Lab VERITAS Imaging Calorimetry at Very High Energies.

V. Bertin - CPPM - MANTS Paris - Sept'10 Indirect search of Dark Matter with the ANTARES Neutrino Telescope Vincent Bertin - CPPM-Marseille on behalf.

Indirect detection of Dark Matter with the ANTARES Neutrino Telescope Miguel Ardid on behalf of the ANTARES Collaboration Rome – September 2015.

05/02/031 Next Generation Ground- based  -ray Telescopes Frank Krennrich April,

Indirect Dark Matter Search with the MAGIC Telescope: first results for the Draco dSph observation S. Lombardi (1), A. Biland (2), M. Doro (1), M. Gaug.

Sources emitting gamma-rays observed in the MAGIC field of view Jelena-Kristina Željeznjak , Zagreb.

V. Bertin - CPPM - PONT Avignon - April'14 Indirect search for Dark Matter with the ANTARES Neutrino Telescope Vincent Bertin - CPPM-Marseille on behalf.

1 Searches for Particle Dark Matter - status Jan Conrad Oskar Klein Centre Physics Department Stockholm University Gamma 2012 July 9-13,

Markarian 421 with MAGIC telescope Daniel Mazin for the MAGIC Collaboration Max-Planck-Institut für Physik, München

MAGIC Telescopes - Status and Results 2009/ Isabel Braun Institute for Particle Physics, ETH Zürich for the MAGIC collaboration CHIPP Plenary Meeting.

XXXXth RENCONTRES de MORIOND – Very High Energy Phenomena in the Universe 1 JOSEP FLIX [IFAE] MAGIC Telescope Prospects for D A R K M A T T E R searches.

Results From VERITAS K. Byrum High Energy Physics (HEP) Division Argonne National Laboratory Indirect and Direct Detection of Dark Matter 6-12 Feb 2011,

Fermi Gamma-ray Space Telescope Searches for Dark Matter Signals Workshop for Science Writers Introduction S. Ritz UCSC Physics Dept. and SCIPP On behalf.

The end of the electromagnetic spectrum

The 2nd workshop of air shower detection at high LHAASO detection of dark matter and astrophysical gamma ray sources Xiao-Jun Bi IHEP, CAS.

Tobias Jogler Max – Planck Institut für Physik The MAGIC view of our Galaxy Tobias Jogler for the MAGIC Collaboration.

Studies of Systematics for Dark Matter Observations John Carr 1.

Roma International Conference on Astroparticle Physics Rome, May 2013 Juan de Dios Zornoza (IFIC – Valencia) in collaboration with G. Lambard (IFIC) on.

Topics on Dark Matter Annihilation

On behalf of the ARGO-YBJ collaboration

An interesting candidate?

High Energy and Very High Energy astronomy

Dark Matter in Galactic Gamma Rays

Fermi LAT Limits on High-Energy Gamma Lines from WIMP Annihilation

Dark Matter Subhalos in the Fermi First Source Catalog

Can dark matter annihilation account for the cosmic e+- excesses?

E. Moulin, C. Medina, J.-F. Glicenstein and A. Viana IRFU, CEA-Saclay

Dark Matter Limits From The Galactic Halo With H.E.S.S.

J-F. Glicenstein, P.Brun, E.Moulin (IRFU-Saclay)

Indirect dark matter search with YBJ-AS Observatory

Modeling the Extended Structure of Dwarf Spheroidals (Carina, Leo I)

Presentation transcript:

INDIRECT DARK MATTER SEARCHES WITH HESS J-F Glicenstein IRFU/CEA-Saclay on behalf of the HESS collaboration

Indirect searches for DM with HESS - ICHEP Outline ― HESS ― The HESS telescope array ― Overview of HESS DM searches ― HESS DM search towards dwarf galaxies ― Sgr dwarf and Canis Major overdensity ― new results on Sculptor and Carina dwarfs ― HESS DM search towards globular clusters ― Summary

Indirect searches for DM with HESS - ICHEP The HESS Cherenkov telescope array High Energy Stereoscopic System located in Namibia, latitude=-23 o, altitude=1800 m ~180 physicists, 35 institutes 4 telescopes, mirrors: 107 m 2 each cameras 960 PMT FOV= 5 o energy threshold ~100GeV full array running > january th telescope to be installed in mirror: 600m 2, 2048 PMT, FOV=3.5 o, trigger threshold=20 GeV

4 Ground-based VHE gamma-ray instruments H.E.S.S. CANGAROO III MAGIC VERITAS MILAGRO

5 Gamma- ray ~ 10 km Particle shower ~ 1 o Cherenkov light ~ 120 m 11 2  3 4 − brief flash ~3 ns − steroscopy: cosmic ray background rejection improved gamma ray reconstruction Imaging atmospheric Cherenkov telescopes

Indirect searches for DM with HESS - ICHEP Indirect dark matter search strategy particle model f AP : dark halo model − dN  /dE given by selected particle models: − neutralinos (MSSM) − U Extra Dimensions (Servant, Tait 2003) boson B − Astrophysical factor:  dense targets Observed by HESS: Galactic Center nearby dwarf galaxies, globular clusters center of galaxy clusters (M87..) searches for clumps, IMBH WIMP annihilation flux into rays observed in solid angle :

7 Overview of HESS DM searches ― Galactic Center ― limits on at the level of cm 3 s -1 ― F.Aharonian et al., Phys.Rev. Letters, 97, (2006) ― IMBH ― strong constraints provided these objects exist ― F.Aharonian et al, Phys.Rev D 78, (2008) ― High energy electrons (ATIC/PAMELA signal) ― F.Aharonian et al, A & A, 508, 561 (2009) ― Dwarf galaxies

Indirect searches for DM with HESS - ICHEP Dwarf spheroidal galaxies − dark matter dominated − data on surface brightness, velocity dispersion, globular clusters for most of them  galactic structure well modelled − mass range 10 7 – 10 9 M ⊙ − observed by HESS: Sagittarius, Canis Major, Carina, Sculptor M MW ≈ M sol M DWARF ≈ M sol Canis Major

Indirect searches for DM with HESS - ICHEP Canis major: exclusion plots Excluded 95% C.L. ― overdensity discovered 2004, nearby (7 kpc) ― status as a dwarf galaxy disputed ― halo modeling based on galaxy formation theory ― min  cm 3 s -1 (MSSM) ― F. Aharonian et al, ApJ 691, 175 (2009) PMSSM predictions red=WMAP MSSM limits Kaluza-Klein UED with the assumption M CMa = M sol

Indirect searches for DM with HESS - ICHEP Sgr Dwarf: exclusion plots − nearby galaxy (24 kpc), in interaction with Milky Way − galactic modeling difficult (tidal stripping) − min  cm 3 s -1 (MSSM, NFW profile) − F.Aharonian et al, Astropart.Physics 29,55(2008) F. Aharonian et al, Astropart. Physics 33,274 (2010) pMSSM predictions MSSM limits (95%CL) KK predictions 1/m DM 2 KK limits

Indirect searches for DM with HESS - ICHEP HESS observations towards Carina/Sculptor Sculptor dwarf (preliminary) Carina dwarf (preliminary) Excess N  < 32.4 (95% CL) Excess N  < 8.6 (95% CL) ― data taken in 2008 (Sculptor) and (Carina) targets

Indirect searches for DM with HESS - ICHEP DM modeling of Sculptor and Carina ― 2 halo profiles: NFW core ― models parameters fitted to velocity dispersion and luminosity profile data. ― models taken from publications: ― Sculptor: G. Battaglia thesis (2007) Battaglia et al, (2008) ― Carina: Gilmore et al (2007) Walker et al (2007) ― Astrophysical factors J HESS PSF baryons total

Indirect searches for DM with HESS - ICHEP Sculptor and Carina: exclusion limits (MSSM) Fermi limit Excluded (95% CL) range of astrophysical models Sculptor dwarf (PRELIMINARY) Carina dwarf (PRELIMINARY) ― Constraints on MSSM models at the level of min = cm 3 s -1 ― Astrophysical uncertainties ~ 1 order of magnitude

Indirect searches for DM with HESS - ICHEP Signal boosts ― astrophysics: ― « clumps »: few % enhancement for Carina/Sculptor ― particle physics: ― Sommerfeld effect: ― effective low velocity dispersions ― resonances at: ― Internal Brehmstrahlung ― annihilation to W + W -,ff (  heavy higgsino-like) FSRIB relative velocity 

Indirect searches for DM with HESS - ICHEP Carina dwarf : Sommerfeld effect thermal wimp annihilation cross section ― dispersion velocity  = 7.5 km/s ―  ~ <<  2 = 1/30  Sommerfeld boost expected to be important for models with pure wino  wino annihilation cross section ― some models excluded near M   4.5 TeV PRELIMINARY Excluded 95% CL

Indirect searches for DM with HESS - ICHEP Scuptor dwarf: enhancements from IB and Sommerfeld effect thermal wimp annihilation cross section ― dispersion velocity  = 10 km/s ―  Sommerfeld boost also expected to be important for models with pure wino  ― effect of IB important for M  < 1 TeV wino annihilation cross section PRELIMINARY Excluded 95% CL

Indirect searches for DM with HESS - ICHEP Are globular clusters better than dwarf galaxies? MSSM + WMAP constraints M15 (adiabatic compression) Draco UMi − Whipple telescope (single, ø= 10 m) − Globular cluster M15: 1.2 hours (2002) − analysis threshold: 400 GeV − no excess events: Flux(M15) <.38 C.U (95% C.L) −Limits as constraining as Canis Major with just 1 hour observation ! M.Wood et al (Whipple) ApJ 678, 594 (2008)

Indirect searches for DM with HESS - ICHEP HESS data on M15 ― Globular cluster, located at 10.1 kpc from Sun ― Estimated total mass: 10 5 M sol ― Undergoing core collapse, with a very small r = 0.2 pc core ― 15.2 hours taken by HESS ― mean zenith angle: 37° ― No excess seen in 0.07° radius around source  N  < 35.7 (95% C.L) angular cut background

Indirect searches for DM with HESS - ICHEP Dark matter modeling of M15 ― initial DM halo with NFW profile (M vir = 10 7 M sol, c=50) ― adiabatic compression of dark matter following baryon collapse in core. (same model as Woods et al 2008) ― heating of DM in core by stars on timescale T h =10 4 years ― Final DM density in core radius (pc) density (M sol /pc 3 ) PRELIMINARY

Indirect searches for DM with HESS - ICHEP HESS constraints on M15 ― adiabatic compression only ― after DM heating by stars: ― no significant DM constraint from M15 PRELIMINARY Excluded (95% CL)

Indirect searches for DM with HESS - ICHEP Summary ― new dark matter targets: Sculptor and Carina dwarf galaxies and M15 globular cluster have been studied by HESS. ― No signal was found towards any of these targets. ― Strong constraints from Sommerfeld effects in Carina/Sculptor

Indirect searches for DM with HESS - ICHEP BACKUP SLIDES

Indirect searches for DM with HESS - ICHEP GC: exclusion plot KK predictions KK limits MSSM predictions MSSM+WMAP MSSM limits (p)MSSM predictions: DarkSusy 4.1 excluded (95% CL)

Indirect searches for DM with HESS - ICHEP HESS high energy electron signal