1 / 33

The Suzaku mission

The Suzaku mission. Kazutaka Yamaoka Aoyama Gakuin University On behalf of the Suzaku team. Outline of my talk. Suzaku overview : instruments and current status Early results from PV phase Galactic X-ray binaries, AGNs, … Suzaku wide-band all-sky monitor (WAM) GRB prompt emissions.

aldis
Download Presentation

The Suzaku mission

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Suzaku mission Kazutaka Yamaoka Aoyama Gakuin University On behalf of the Suzaku team

  2. Outline of my talk • Suzaku overview : instruments and current status • Early results from PV phase • Galactic X-ray binaries, AGNs, … • Suzaku wide-band all-sky monitor (WAM) • GRB prompt emissions

  3. Suzaku launch • Fifth Japanese-US X-ray satellite • Launched by M-V rocket on July 10, 2005 • Astro-E2  Suzaku (朱雀) “red Chinese phoenix” • LEO 570km, 31 deg.

  4. X-ray Telescopes XRT GSFC ISAS Nagoya X-ray Calorimeter XRS GSFC ISAS TMU Hard X-ray Detector HXD Tokyo ISAS RIKEN Suzaku instruments X-ray CCD Camera XIS MIT Osaka Kyoto ISAS

  5. Current Status of Suzaku 2005 July 10th Launch of Astro-E2 2005 Aug. 8th XRS accident 2005 Aug. 12th First light of XIS (E0102-72) 2005 Aug. 19th First light of HXD (Cen A) 2005 Sep. 1st Start of PV observations (SWG) ~70sources 2006 Apr. 1st Start of GO observations (AO1) ~2007 Mar. 7eV@6keV at 60mK AO2 (the proposal due date will be Dec. 2006)

  6. XRT+X-ray CCD(XIS) XIS: 3 FI chips + 1 BI chip • Large effective area around the iron band • Good line-response in the soft X-rays • Low background XMM Suzaku Suzaku BI Suzaku FI Chandra

  7. Hard X-ray Detector (HXD) • Well-type GSO/BGO phoswich detectors + Si PIN diodes with 2mm thickness • Narrow field of view 0.5°×0.5°<100keV • Thorough active shielding surrounded with BGO • First Japanese hard X-ray instrument

  8. HXD background rejection • Power of active shielding HXD-GSO

  9. Crab RXTE Beppo-SAX/PDS Suzaku/HXD GSO PIN Energy (keV) HXD background level • The lowest background is achieved. • The sensitivity depends on modeling of the background.  Current: 5% accuracy ~0.5 mCrab in 10-40 keV Background study is still in progress Our Goal: 1% ~ 0.1 mCrab level

  10. Key science of Suzaku • Wide-band spectroscopy 0.2-600 keV • Variable Galactic and extragalactic sources • Unidentified IGR sources and GeV/TeV sources “provide exactly simultaneous data” • Study of x-ray emissions for diffuse sources • Plasma diagnostics with high energy resolution Search for the hard X-ray tail  Connections between thermal and non-thermal universe

  11. Suzaku performance (I)- X-ray response - Iron-Kα • Galactic center ASCA320 ksec (Koyama et al. 1996) Iron-Kβ,  Ni-Kα S XV Kβ S XVI Kα S XV Kα Si XIII Kβ Si XIV Kα Si XIII Kα Chandra600ksec (Muno et al. 2004) Suzaku 180 kec Preliminary! Koyama et al. XMM 50 ksec (Tanaka)

  12. Suzaku performance - Wide-band spectroscopy - • Spectral study for weak sources (a few mCrab) Preliminary! Cen A “HXD first light !” Watanabe et al.

  13. Cyclotron resonance featuresin the magnetized neutron stars • Her X-1 and transient pulsar A0535+262 Preliminary! ~37 keV ~46 keV Terada, Mihara et al.

  14. Galactic black hole binaries • Low/hard state ofCygX-1 and GROJ1655-40 • Study of corona, disk and reflected material Ratio to wabs0.5* PL(Γ=1.6) Each 20 ksec soft excess narrow Fe (6.4keV) 0.5—350 keV Cutoff (Te=110keV) Preliminary! Kubota, Takahashi et al.

  15. Microquasar GRS1915+105 (I) • Large multi-wavelength Campaign on Oct. 18-19 INTEGRAL, Swift, RXTE Spitzer, ESO-NTT VLA, Ryle etc.. • Oscillation state XIS (1-12 keV) PIN (10-40 keV) Ueda et al.

  16. Microquasar GRS1915+105(II) Absorption-line changes with intensity variations. • Study of hard X-ray behavior in the state variations Oscillation High H-like iron-K Stable Oscillation Low Preliminary! Ueda et al.

  17. MCG 6-30-15 XIS • Broad-iron line associated with absorption lines confirmed • Less variable in hard X-rays Preliminary! Fabian et al.

  18. Wide-band study of AGNs • Study of reflection and high energy cutoff in the AGNs  CXB synthesis Preliminary! MCG5-23-16 NGC2110 Reeves et al. Ecut>150keV No reflection? Okajima et al.

  19. Radio galaxy 3C120 Kataoka et al. Suzaku compared to BeppoSAX Good S/N 100 1 10 Preliminary! Beppo SAX (160ksec) Suzaku (150ksec) Zdziarski & Grandi, 2001

  20. Wide-band All-sky Monitor (WAM) • Second function of HXD lateral shield e.x. Beppo-SAX GRBM, INTEGRAL SPI-ACS • Large effective area 400cm2 @1MeV • Wide field of view • Ideal GRB detectors !

  21. GRB light curves • 83 GRB candidates per 8 months  WAM detection rate: ~120/year • short/long  bimodal distribution Preliminary! short long WAM 0.2s 30s

  22. WAM energy spectra MeV emissions were detected from some GRBs !  Study of MeV emission GRB051008 GRB060213 GRB060317 MeV emission !

  23. WAM + Swift/BAT spectra • Suzaku/WAM 50-5000 keV • Swift/BAT 15-150 keV • Broadband coverage 15-5000 keV Suitable for study of prompt emissions GRB051008 GRB051111 GRB050915B

  24. High red-shift GRB 050904 • Most distant z=6.29 • T90: 212 s Ep=201 (-43, +84) keV Preliminary! WAM WAM BAT BAT

  25. Short hard GRB 051221A Ep=378 (-120, +285) keV • z = 0.54 • T90: 0.22 s WAM WAM BAT BAT Preliminary!

  26. Amati relation in the WAM-GRBs z GRB050904 6.29 GRB051109A 2.346 GRB051111 1.55 GRB051221 0.54 GRB060210 3.91 GRB060223A 4.41 GRB060502A 1.51 7GRBs Preliminary!

  27. IPN localizations • WAM joined the 3rd Interplanetary Network since Jan. 2006 • Localize the short/hard burst as fast as possible  follow-up with Swift/XRT or optical telescopes Konus-WAM Konus-SPI-ACS GRB060213GRB060303GRB060317GRB060425GRB060429GRB060522GRB060610 Konus-MO GRB060610

  28. Summary • The X-ray satellite Suzaku is now operating well with two instruments (XIS and HXD) ★Power of “Suzaku” • Wide-band coverage • Soft X-ray response and very low background • WAM as a monitor of GRB prompt emissions cf. Suzaku pointing  afterglow study • The exciting results will be presented at the Suzaku conference in Kyoto on Dec. 2006.

  29. Suzaku conference • Kyoto, Japan • Dec. 4-8, 2006

  30. XIS0 HXD-PIN 40 keV TeV SNR RXJ1713-3946 HXD Narrow FOV First Detection up to 40keV Preliminary! XIS HXD 47.8ksec Takahashi, Tanaka et al.

  31. Compton thick AGNs • NGC4945 Griffith, Isobe, Itoh et al.

  32. Epeak Distributions Number of events • WAM results • normalized • BATSE results Ep (log)

  33. HXD Expected Sensitivity 3x10-11 erg/s/cm2 (10-100 keV) Continuum Sensitivity dE/E = 0.5  Exp. = 100 ks  3 sigma stat. 1 and 3 % of BGD 3x10-12 ・10-30 keV, 3 sigma photon limit for 100 ks : 0.1 mCrab ・10-30 keV,  2% of BGD : 0.1mCrab The better modeling of backgrond will allow fainter source, 0.1—0.2 mCrab at 10—40 keV.

More Related