non-X-ray wavelengths Manfred Pakull 0bservatoire Astronomique de Strasbourg coll: Roberto Soria, Christian Motch, Fabien Grisé ULX and Middle Weight.

Slides:

Advertisements

Similar presentations

(2) Profile of the Non-Thermal Filaments of SNRs =>High Energy Particle Acceleration =>High Energy Particle Acceleration In all the SNRs & GC Non Thermal.

Advertisements

Ultraluminous X-ray Sources Counterparts & Bubbles Manfred Pakull, Fabien Grisé 0bservatoire Astronomique de Strasbourg coll: C. Motch, R. Soria, I. Smith,

AY202a Galaxies & Dynamics Lecture 14: Galaxy Centers & Active Galactic Nuclei.

Tom Esposito Astr Feb 09. Seyfert 1, Seyfert 2, QSO, QSO2, LINER, FR I, FR II, Quasars, Blazars, NLXG, BALQ…

Ultraluminous X-ray sources (ULXs) are promising candidates for intermediate-mass black holes. Here we report about the Suzaku observation of two ULXs,

Supernova Remnants and ULX bubbles Manfred Pakull, Fabien Grisé, C. Motch, R. Soria 0bservatoire Astronomique de Strasbourg SNR & PWN in the Chandra Era,

Supernova Remnants Shell-type versus Crab-like Phases of shell-type SNR.

Deriving direct mass measurements of black holes in ULXs Jeanette Gladstone, T. Roberts, C. Copperwheat, A. Goulding, C. Heinke, A Swinbank, T. Cartwright,

Discovery of an FRII microquasar Manfred Pakull (Strasbourg Observatory) Jess Broderick (Southampton) Stephane Corbel (Université Paris 7 and CEA Saclay.

Ultraluminous X-ray sources: a mystery for modern X-ray astronomy Tim Roberts.

SUPERNOVA REMNANTS IN THE MAGELLANIC CLOUDS JOHN R. DICKEL UNIVERSITY OF NEW MEXICO AND ROSA MURPHY WILLIAMS COLUMBUS STATE UNIVERSITY Preliminary SNR.

Supernova Remnants in the ChASeM33 X-ray Survey of M33 Knox S. Long, William P. Blair, P. Frank Winkler, and the ChASeM33 team.

Sean Farrell XMM-Newton Survey Science Centre University of Leicester, UK In collaboration with… N. Webb, D. Barret, O. Godet & B. Plazolles – CESR, France.

Active Galactic Nuclei Very small angular size: point like High luminosity: compared to host galaxies Broad-band continuum emission: radio to TeV Strong.

Key points: Active Galactic Nuclei: powerful energy sources in “nuclei” (very center) of some galaxies Main types: Seyferts, radio galaxies and quasars.

Compact Steep-Spectrum and Gigahertz Peaked-Spectrum Radio Sources Reviews: O’Dea 1998 PASP 110:493 Third Workshop on CSS/GPS Radio Sources 2003 PASA Vol.

Young X-ray pulsars and ULXs Roberto Soria (MSSL) Roberto Soria (MSSL) Thanks also to: Rosalba Perna (JILA-Boulder) Luigi Stella (INAF-Rome)

Supernova Remnants in the ChASeM33 X-ray Observations of M33 Knox Long, Bill Blair, Frank Winkler, Terry Gaetz, David Helfand, Jack Hughes, Kip Kuntz,

The Transient Universe: AY 250 Spring 2007 Existing Transient Surveys: High Energy II: X-ray Binaries Geoff Bower.

Centaurus A Kraft, Hardcastle, Croston, Worrall, Birkinshaw, Nulsen, Forman, Murray, Goodger, Sivakoff,Evans, Sarazin, Harris, Gilfanov, Jones X-ray composite.

Facts about SNe and their remnants Evolution of an SNR sensitively depends on its environment. Observed SNRs are typically produced by SNe in relative.

Hot Gas in Planetary Nebulae You-Hua Chu Robert A. Gruendl Martín A. Guerrero Univ. of Illinois.

Wavelength-Dependent Selection Effects in Searches for SNRs in Nearby Galaxies  Venn diagram depicts optical, radio and X-ray (Chandra) detections of.

Jet inflated bubbles: facts (and fiction) Manfred W. Pakull, Observatoire de Strasbourg coll. Roberto Soria, Christian Motch, and others HEPROIII, Barcelona,

Department of Astronomy, University of Padova Department of Physics, University of Padova INAF-Astronomical Observatory of Padova Paola Mucciarelli In.

The Ultra-luminous X-Ray Sources Near the Center of M82 NTHU 10/18/2007 Yi-Jung Yang.

X-ray Emission from PNe Martín A. Guerrero You-Hua Chu Robert A. Gruendl Univ. of Illinois APN III, Mt Rainier, 7/30/03.

An X-ray Study of the Bright Supernova Remnant G with XMM-Newton SNRs and PWNe in the Chandra Era Boston, MA – July 8 th, 2009 Daniel Castro,

The Spitzer View of Jet-ISM Interactions Patrick Ogle Ski Antonucci, Phil Appleton, David Whysong, & Christian Leipski.

Optical detection of the emission nebulae in nearby galaxies DEJAN UROŠEVIĆ collaborators: Milica Vučetić, Bojan Arbutina, Konstantin Stavrev, Dragana.

What are the essential ingredients of ultraluminous X-ray sources? of ultraluminous X-ray sources? Roberto Soria (CfA & MSSL) Some ULX collaborators: M.

Suzaku, XMM-Newton and Chandra Observations of the Central Region of M 31 Hiromitsu Takahashi (Hiroshima University, Japan) M. Kokubun, K. Makishima, A.

THE HST VIEW OF LINERS AND OTHER LOCAL AGN MARCO CHIABERGE CNR - Istituto di Radioastronomia - Bologna Alessandro Capetti (INAF-OATo) Duccio Macchetto.

The X-ray Universe Sarah Bank Presented July 22, 2004.

Chandra Observation of the Failed Cluster Candidate K. Hayashida, H. Katayama (Osaka University), K. Mori (Penn State University), T.T. Takeuchi.

The Optical Counterpart of NGC6946 ULX-1 P. Abolmasov, S. Fabrika, O. Sholukhova, V. Afanasiev Special Astrophysical Observatory, Russia (a peculiar ULX.

ASTR112 The Galaxy Lecture 7 Prof. John Hearnshaw 11. The galactic nucleus and central bulge 11.1 Infrared observations (cont.) 11.2 Radio observations.

Internal Irradiation of the Sgr B2 Molecular Cloud Casey Law Northwestern University, USA A reanalysis of archived X-ray and radio observations to understand.

HESS J An exceptionally luminous TeV γ-ray SNR Stefan Ohm (DESY, Zeuthen) Peter Eger (MPIK, Heidelberg) On behalf of the H.E.S.S. collaboration.

The Radio Millisecond Pulsar PSR J : A Link to Low-Mass X-Ray Binaries Slavko Bogdanov.

Growing black holes: from the first seeds to AGN Mar Mezcua Harvard-Smithsonian Center for Astrophysics T. Miyaji, F. Civano, G. Fabbiano, M. Karouzos,

Jets Two classes of jets from X-ray binaries

Ultraluminous X-ray Sources Andrew King, University of Leicester ² L x (apparent) > erg s -1 = L Edd (10 M ¯ ) ² do ULXs contain intermediate—mass.

Nebulae Associated with Ultraluminous X-ray Sources P. Abolmasov, Special Astrophysical Observatory.

ULX accretion state(s) Roberto Soria Roberto Soria University College London (MSSL) Thanks also in random order to Doug Swartz, Manfred Pakull, Hua Feng,

Progenitor stars of supernovae Poonam Chandra Royal Military College of Canada.

X-ray study of a nearby nuclear X-ray study of a nearby nuclear starburst and a nearby AGN starburst and a nearby AGN Roberto Soria (UCL) Mat Page, Kinwah.

An XMM-Newton View of the Luminous X-ray Source Population of M101 Leigh Jenkins Tim Roberts, Robert Warwick, Roy Kilgard*, Martin Ward University of Leicester,

Observational Evidence for Quasi-soft X-Ray Sources in Nearby Galaxies and the link to Intermediate-mass Black Holes Albert Kong and Rosanne Di Stefano.

Optical counterparts to Ultraluminous X-ray sources Jeanette Gladstone - University of Alberta T. P. Roberts (U of Durham), A. D. Goulding (CfA) T. Cartwright.

N. Isobe (Kyoto University; ) K. Ohsuga (NAOJ), K. Makishima, P. Gandhi (RIKEN), T. Mizuno (Hiroshima University), A. Kubota.

Radio Galaxies part 4. Apart from the radio the thin accretion disk around the AGN produces optical, UV, X-ray radiation The optical spectrum emitted.

Cornelia C. Lang University of Iowa collaborators:

1 Radio – FIR Spectral Energy Distribution of Young Starbursts Hiroyuki Hirashita 1 and L. K. Hunt 2 ( 1 University of Tsukuba, Japan; 2 Firenze, Italy)

The University of Sheffield Joanna Holt 20 th October 2006 Emission line outflows: the evidence for AGN-induced feedback Clive Tadhunter.

Populations of X-ray sources Populations of X-ray sources in star-forming galaxies in star-forming galaxies Roberto Soria (MSSL) K Wu, A Kong, M Pakull,

Lecture 10: Bubbles and PNe September 26, III. Conduction Layer - Probe the thermal conduction layer High ions produced by thermal collisions O.

Science Operations & Data Systems Division Research & Scientific Support Department Page 1 XMM-Newton Feedback between circumnuclear gas and AGN: implications.

Lecture 9: Wind-Blown Bubbles September 21, 2011.

Ultra-luminous X-ray sources Roberto Soria (University College London) M. Cropper, C. Motch, R. Mushotzky, M. Pakull, K. Wu.

CSI in SNRs You-Hua Chu Inst of Astron and Astroph

Ultraluminous X-ray Sources

Evidence for an Intermediate Mass Black Hole in NGC 5408 X-1

Dynamical constraints on the mass of the black hole in a ULX

XMM-NEWTON reveals a dipping black-hole X-ray binary in NGC 55

DISCRETE X-RAY SOURCE LUMINOSITY FUNCTION (LF):

Paola Rodriguez Hidalgo High Energy Astrophysics

Constraining IMBH masses with VLBI

Cornelia C. Lang University of Iowa collaborators:

Presentation transcript:

non-X-ray wavelengths Manfred Pakull 0bservatoire Astronomique de Strasbourg coll: Roberto Soria, Christian Motch, Fabien Grisé ULX and Middle Weight Black Holes, May 24-26, ESAC, Spain

Outline -- Ultraluminous X-ray sources proper -- ULXs and stellar environment -- ULX feedback: photoionisation -- ULX feedback: shocks; wind/jet inflated ULX bubbles -- Rosetta Stone S26 in NGC ULXBs = jet inflated « beambags » like SS433/W50

NGC1313 X-2 (Thesis Grisé) ‏ VLT/FORS1 : H ,V,B HST/ACS : F814W,F555W, F435W 5“ N E N E 10“

Color-magnitude diagrams of the stars around NGC 1313 X-2 Counterpart Mv ~ -4.5 (Grisé et al) Cluster age: Ramsey et al 2006: > 10 MyrsE(B-V) = 0 Liu et al 2007< 10 Myrs= 0.33 Grisé et al Myrs= 0.10

Optical Spectrum of X-2 Pakull et al 2006 HeII λ 4686  RV( 4686) ~ 300 km/s, if disk emission -> no IMBH !

Photometry of N1313 X-2 Liu et al 2009: Periodic (?) variation with P= 6 days Not confirmed by ground-based photom (Grisé et al. 2009) ‏

Holy grail Measure orbital period and radial velocity curve(s) ‏ of ULX (and companion) ‏ Determine masses: stellar BHs or IMBH ? We are close ! (c.f. C. Motch et al.; T. Roberts et al. this conf.) ‏

Feedback I. X-ray photoionization

X-ray ionized nebula: XIN Halpern & Grindlay 1980 Kallman & McCray 1982 Different frm HII regions: no sharp Stroemgren spheres; ‘warm’ neutrals  strong [OI], [SII] ‘warm’ He++ zone:  HeII 4686 emission ‘Te ~10 4 K; line width < 20 km/s

Holmberg II ULX 2 nd XIN after LMC X-1 (Pakull & Angebault 1989) nebular HeII 4686 emission at the position of the ULX (Pakull & Mirioni 2002) ‏ Zanstra He+ LyC photon counting L HeII 4686  L X nebula indeed “sees” L X ~ erg/s -> no beaming here ! Foot nebula

Xray ionized nebula in Holmberg II From Laurent Mirioni’s thesis; nebula is density-bound (optically thin) beyond heel Chandra position coincident with He III region confirmed by Kaaret et al 04

[OIV] 25.9  emission in Holmberg II X-1 Spitzer observations: Berghea et al 2009 note: IP (O++) ~ IP(He+) ~ 54 eV

Orocz et al 2007: 70 Mo OB + 16 Mo BH in dense HII B208f: XIN M33 X-7 Strasbourg students Maggi, Morgan and Master student Xian Hua: Measure XUV (0.054 – ~0.1 KeV) emission of well-behaved BH X-ray binary using CLOUDY modeling; PL and TB wrong ! 4686

NGC 5408 HeII 4686 Nebula: Pakull & Mirioni 2003 Spectra: Kaaret et al 2009: XIN! 4686: Nebular & STELLAR H 

Feedback II. Shocks by wind/jets

ULX IC 342 X-1 "Tooth" nebula situated in spiral arm has a diameter of 220pc Pakull & Mirioni 2002; Roberts et al 2003; SNR-like spectrum: [SII]/H  =1.2 [OI] 6300/ H  =0.4 shock (or X-ray) ionization Detection of supersonic expansion (see later) Roberts et al 2003 INTEGRAL field spectrograph: [OIII]-contours Cont 5000 H  [OIII]-contours

ULXB NGC 1313 X-2 H  VLT * bubble diameter ~ 26’’ = 400 pc (!) ‏

The ‘SNR’ MH9-11 in HolmbergIX Holmberg IX X-1: Lx ~10 40 erg/s Miller (1995): X-ray superluminous SNR; but X-ray variable point source! Note small cluster incl. ULX counterpart; SE: shock breakout (?) SE Subaru B Ha [OIII] B 30 " = 500 pc

ULX (Swartz, Soria, in prep)‏ 30 pc HST/ACS - brightest ‘SNR’ (10 39 erg/s) ‏ - ‘colliding SNRs’ (Blair & Fesen 94, BF & Schlegel 01) ‏ - X-ray variable  ULX (Roberts & Colbert 03, poster Fengyun Rao !) ‏ - v ex =225 km/s; t ~ yrs; (Dunne et al. 00) ‏ The youth of the bubble excludes nature as a remnant of SN explosion that created compact accreting star in ULX [after SN explosion nuclear timescale expansion of donor star before Roche lobe overflow mass transfer can take place] NGC 6946 MF16 no HNR !

Kinematics of ULX bubbles Holm IXNGC1313 X-2 IC 342 X-1 Holm II HH [NII] 6584 V exp = 80 – 250 km/s >> 20 km/s (T~10 4 K thermal v) ‏

Energetics of ULX Bubbles Bubble radii up to ~200 pc (ie. >> SNR) Expansion velocity ~ 80 – 250 km/s if due to SN explosion; Sedov /snowplow : E 0 ~ erg R v n ; t ~ yrs, E 0 ~ erg n (shock H  luminosity: I  ~ v exp 2.3 n --> n = cm -3 ) ‏  HNR nature of ULXB unlikely if wind/jet driven bubble (Castor 1975, Weaver et al 1977): Lw ~ erg/s R v n t ~ yrs ( yr for NGC6946X-1); Lw ~ erg/s for all ULXB Lw = ½ Mdot v out 2 ~ jet mechanical luminosity of SS433; i.e. v out should be mildly relativistic (~ 0.3 c) ‏

Interstellar Bubble Castor, McCray, Weaver 1975, Weaver et al E_therm = 5/11 L w t E_kin = 15/77 L w t E_rad = 27/77 L w t  E_i = 77/77 L w t (from Chu, 2009)‏ + non- thermal particles K

Problem: strong winds or large- scale jets not readily seen in ULXB

Estimate: >~ 25 % ULX blow bubbles If ULX photon emission strongly beamed, than there should be many ULXB with ULXs that are beamed away from us Are there unrecognized ULXB from active, presently inactive, or misaligned ULXs ? Search for point-like XRS among large SNRs candidates

Optical [SII]/H  > 0.4 selected surveys of SNRs in large nearby galaxies (outside LG) Matonick & Fesen 1997: N5204, N5585, N6946, M81, M101; N2403 Blair & Long 1997: N300, N7793 HH [SII] [SII]-H 

some very large SNR candidates… Lozinskaya & Moiseev 2007 Log  - logD for SNR S1-N pc IC 10: Bubble around XRB WR + 30 Mo BH (LM 2007)‏ NGC 5585 S1: new ULX (Pakull & Grisé 2008)‏

very large SNR in NGC 5585 Matonick & Fesen (1997) noted huge (200x300) pc ‘SNR’ in NGC pc

very large ‘SNR’ is ULXB ! 5.0 Matonick & Fesen (1997) noted huge (200x300) pc ‘SNR’ in NGC pc Chandra: point source (~ erg/s) ‏ as in many previously identified ‘SNRs’ Ho IX, NGC 6946X-1; M81X-6 …

 QSO SS433 & W50 mechanically inflated Bubble W50 with ‘ears’ due to v=0.26c jets (+SNR ?) radio-image 200 pc ASCA image (Kotani 98) ‏ Begelman’s ‘beambags’ i.e. linear triple

ss433film VLBA; credit: NRAO/AUI/NSF

Problem: no large-scale jets readily seen in ULXB (or other  QSO)

…but non-thermal radio emission around some ULX Hol II X-1 again L R ~ Cas A extended emission i.e. not  QSO-like ~ only 1% of P J in SS433 is enough to power radio lobes (very small fraction of P J go into relativistic electrons and B fields Neal Miller, Mushotzky, Neff 2005 HeII 4686

some very large SNR candidates… NGC 7793 S26 Log  - logD for SNR S1-N pc

S26 = optical/Xray = P keV0.2-1 keV 250pc N7793: Chandra archive; 50 ks; PI: Pannuti X + Ha S26: Blair & Long 1997 P8: Read and Pietsch 1999

keV keV 2.0 – 8.0 keV

Pakull, Soria & Motch, Nature in press H  contours from CTIO L x ~ 5E36 erg/s L x ~ 7E36 erg/s L x ~ 1.1E37 erg/s  ~ 1.5 kT ~ keV

S26 and FR II radio galaxies Soria et al 2009; 2010 submitted ATCA 9.02 GHz 1000 : 1

compare with FRII CygA Cyg A: Chandra high S/N NGC 7793 S26: Chandra 50ks

compare with FRII CygA Cyg A: Chandra low S/N NGC7793-S26: Chandra 50ks

Radio galaxy basic model Heinz 2000, Thesis AGN: hot T~ K cluster gas weak cocoon shock S26: warm K ISM: strong cocoon shock

S26 in HeII 4686 emission -> v ~ 275 km/s S26 in HeII 4686 emission -> v s ~ 275 km/s opt. counterpart of central souce: Mv~-5 (WR) star

but finally...

V ~ V ~ 250 km/s V exp ~ V s ~ 250 km/s ESO VLT Oct. 2009

S26/P8 summary Pakull, Soria & Motch 2010, Nature in press Morphology : FRII radio galaxy: radio and X-ray lobes, hot spots + optical lobes  inflation of the lobes by a jet (power P J ) ‏ Size: 300 x 150 pc, i.e. typical ULXB Supersonic expansion with 250 km/s (!); consistent with shock-excited 4686 emission M V ~ -5 (WR) optical counterpart Age = 2/5 R/v ~ yrs E(rel. electrons) << E(thermal), E(kin) ‏ P J ~ erg/s (>> Lx ~ erg/s) ‏ Similar to, but much more powerful than SS433/W50

Heinz 2002 Heinz & Sunyaev, 2003  QSO and ULX

Thank you