On the X-ray origin in Quiescent Black Hole X-ray Binaries Hui Zhang ( 张惠 ) Shanghai Astronomical Observatory, Chinese Academy of Sciences Collaborators:

Slides:

Advertisements

Similar presentations

AGN Feedback at the Parsec Scale Feng Yuan Shanghai Astronomical Observatory, CAS with: F. G. Xie (SHAO) J. P. Ostriker (Princeton University) M. Li (SHAO)

Advertisements

An accretion disk-corona model for X-ray spectra of active galactic nuclei Xinwu Cao Shanghai Astronomical Observatory.

Some issues on models of black hole X-ray binaries Feng Yuan Shanghai Astronomical Observatory, Chinese Academy of Sciences.

Disk corona in AGN: what do we expect? Bifang Liu Yunnan Observatory, CAS The disk corona evaporation model The model for X-ray binaries Similarities between.

Jeanette Gladstone - University of Alberta Tim Roberts, Chris Done - Durham University Jeanette Gladstone - University of Alberta Tim Roberts, Chris Done.

Radio and X-ray emission in radio-quiet quasars Katrien C. Steenbrugge, Katherine M. Blundell and Zdenka Kuncic Instituto de Astronomía, UCN Department.

Abstract We present first modeling results of the rapid spectral variability of flares in the X-ray binary Cygnus X-1 in the high/soft state. The coupled.

Accretion onto the Supermassive Black Hole in our Galactic Center Feng Yuan Shanghai Astronomical Observatory.

Andrzej A. Zdziarski Centrum Astronomiczne im. M. Kopernika Warszawa, Poland Radiative processes and geometry of accreting black holes.

Inner Cool Disks in the Low/Hard State of Accreting Black Holes 刘碧芳云南天文台 In collaboration with R.E. Taam, F. Meyer, and E. Meyer-Hofmeister.

2009 July 8 Supernova Remants and Pulsar Wind Nebulae in the Chandra Era 1 Modeling the Dynamical and Radiative Evolution of a Pulsar Wind Nebula inside.

5GHz, VLA image of Cyg A by R. Perley Cosmological growth of SMBH: the kinetic luminosity function of AGN IAU Symposium 238Prague22/08/2006 IAU Symposium.

Shuang-Nan Zhang, Yuan Liu, Jin Zhang Institute of High Energy Physics

A reflection origin for the soft and hard X-ray excess of Ark 120 Ferrara, 2010 May in collaboration with: Andy Fabian, Rubens Reis, Dom Walton (Institute.

Steady Models of Black Hole Accretion Disks including Azimuthal Magnetic Fields Hiroshi Oda (Chiba Univ.) Mami Machida (NAOJ) Kenji Nakamura (Matsue) Ryoji.

ADVECTION-DOMINATED ACCRETION AND THE BLACK HOLE EVENT HORIZON Ramesh Narayan.

Accretion Disk Spectra of Ultra- luminous X-ray Sources and Galactic superluminal jet sources Ken Ebisawa (INTEGRAL Science Data Center, NASA/GSFC) Piotr.

K. Makishima (University of Tokyo / RIKEN) Construct a unified view of BHs under high accretion rates ・ Some BHBs, including micro-quasars in particular.

ADVECTION- DOMINATED ACCRETION Ramesh Narayan. Why Do We Need Another Accretion Model? Black Hole (BH) accretion is not as simple as people originally.

INPE Advanced Course on Compact Objects Course IV: Accretion Processes in Neutron Stars & Black Holes Ron Remillard Kavli Center for Astrophysics and Space.

Min-zhi Kong Physical Parameters Related to AGN Variability ---- especially for NGC 5548.

Ron Remillard, MIT Primary Collaborator, Jeff McClintock CfA

XIV Advanced School on Astrophysics Topic III: Observations of the Accretion Disks of Black Holes and Neutron Stars III.2 X-ray States of Black Hole.

Electron thermalization and emission from compact magnetized sources

Truncated disc and X-ray spectral states of black holes

Temporal evolution of thermal emission in GRBs Based on works by Asaf Pe’er (STScI) in collaboration with Felix Ryde (Stockholm) & Ralph Wijers (Amsterdam),

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

AGN in hierarchical galaxy formation models Nikos Fanidakis and C.M. Baugh, R.G. Bower, S. Cole, C. Done, C. S. Frenk Physics of Galactic Nuclei, Ringberg.

Constraints on X-ray polarization of synchrotron jets from stellar-mass BHs Dave Russell niversity of Amsterdam In collaboration with: Dipankar Maitra,

OUTLINE X-RAY STATES & RADIO JETS (BLACK HOLES) Radio phenomenology vs accretion modes LUMINOSITY CORRELATIONS (BLACK HOLES) radio/X-ray NIR/X-ray dependence.

Polarimetric Observations of in X-ray Binaries Dave Russell Instituto de Astrofísica de Canarias In collaboration with Tariq Shahbaz, Rob Fender Granada,

Luminous Hot Accretion Flows extending ADAF beyond its critical accretion rate Feng Yuan Shanghai Astronomical Observatory, Chinese Academy of Science.

An Accretion Disc Model for Quasar Optical Variability An Accretion Disc Model for Quasar Optical Variability Li Shuang-Liang Li Shuang-Liang Shanghai.

RXJ a soft X-ray excess in a low luminosity accreting pulsar La Palombara & Mereghetti astro-ph/

Decoding the time-lags in accreting black holes with XMM-Newton Phil Uttley Thanks to: P. Cassatella, T. Wilkinson, J. Wilms, K. Pottschmidt, M. Hanke,

1 The Fundamental Plane Relationship of Astrophysical Black Holes Ran Wang Supervisor: Xuebing Wu Peking University Ran Wang Supervisor: Xuebing Wu Peking.

Constraints on X-ray polarization of synchrotron jets from stellar-mass BHs Dave Russell Instituto de Astrofísica de Canarias In collaboration with: Dipankar.

Advection-dominated Accretion: From Sgr A* to Other Low-Luminosity AGNs Feng Yuan (Shanghai Astronomical Observatory) Collaborators: Ramesh Narayan; Eliot.

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

The Fundamental Plane of Astrophysical Black Holes WU Xue-Bing (Peking University) Collaborators: WANG Ran (PKU) KONG Minzhi (NAOC)

19/02/09ARC Meeting, Colonster The Simbol-X mission and the investigation of hard X-rays from massive stars Michaël De Becker (Groupe d'AstroPhysique des.

A New Analytic Model for the Production of X-ray Time Lags in Radio Loud AGN and X-Ray Binaries John J. Kroon Peter A. Becker George Mason University MARLAM.

Sub-Eddington accretion flows in neutron-star low-mass X-ray binaries Rudy Wijnands Astronomical Institute “Anton Pannekoek” University of Amsterdam 25.

Magnetically Supported Black Hole Accretion Disk and Its Application to State Transition of Black Hole Candidate Hiroshi Oda (CfA/Chiba Univ.) M. Machida.

Isolating the jet in broadband spectra of XBs Dave Russell niversity of Amsterdam In collaboration with: Fraser Lewis, Dipankar Maitra, Robert Dunn, Sera.

Timing Features of XTE J in 2003 March outburst Fan Zhang et al. (astro-ph/ ) --Possible Evidence for Accreting Blobs.

Investigating the relation of corona and disk from a blue AGN sample Liu, Jieying Yunnan Astronomical Observatory, CAS 第三届黑洞天体物理前沿问题年度研讨会 (2008),SHAO ，

Jets Two classes of jets from X-ray binaries

Black holes and accretion flows Chris Done University of Durham.

Advection-dominated Accretion: From Sgr A* to Other Low-Luminosity AGNs Feng Yuan Shanghai Astronomical Observatory.

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.

The X-ray Universe 2008, Granada, May A Jet-Emitting Disk model for the microquasar broad band emission G. Henri Coll. P.O Petrucci, J. Ferreira,

Global 3D MHD Simulations of Optically Thin Black Hole Accretion Disks

Magnetically Supported Black Hole Accretion Disk and Its Application to State Transition of Black Hole Candidate Hiroshi Oda (CfA/Chiba Univ.) M. Machida.

Finding Black Hole Systems in Nearby Galaxies With Simbol-X Paul Gorenstein Harvard-Smithsonian Center for Astrophysics.

A new model for emission from Microquasar jets Based on works by Asaf Pe’er (STScI) In collaboration with Piergiorgio Casella (Southampton) March 2010.

Global Simulations of Time Variabilities in Magnetized Accretion Disks Ryoji Matsumoto (Chiba Univ.) Mami Machida (NAOJ)

Variability and Flares From Accretion onto Sgr A* Eliot Quataert (UC Berkeley) Collaborators: Josh Goldston, Ramesh Narayan, Feng Yuan, Igor Igumenshchev.

Accretion #3 When is the thin disk model valid? Reynolds number, viscosity Time scales in disk BH spectra Using X-ray spectra to determine BH mass and.

Thermal Equilibria of Magnetically Supported Black Hole Accretion Disks Table of Contents Introduction: Review of the Bright/Hard state of BHBs Candidate.

Multi-wavelength behaviour of III Zw 2

RXTE Spectral Observations of the Galactic Microquasar GRO J1655－40

Black Hole Binaries in Quiescence

The black hole fundamental plane: revisit with a larger sample of radio and X-ray emitting broad line AGNs Zhao-Yu Li Astronomy Department, Peking University.

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

Correlation Time Scales of the X-ray Flux in Low Mass X-ray Binary

Toward understanding the X-ray emission of the hard state of XTE J

The origin nuclear X-ray emission in the nuclei of radio galaxy-FR Is

Potential Gamma-ray Emissions from Low-Mass X-ray Binary Jets

An MHD Model for the Formation of Episodic Jets

Presentation transcript:

On the X-ray origin in Quiescent Black Hole X-ray Binaries Hui Zhang ( 张惠 ) Shanghai Astronomical Observatory, Chinese Academy of Sciences Collaborators: Feng Yuan (SHAO) Wei Cui (Purdue University) Wei Cui (Purdue University) Gabor Pszota (Purdue University) Gabor Pszota (Purdue University)

Outline 1.Introduction: (a)observation of Black hole X-ray binary (a)observation of Black hole X-ray binary (b) theoretical model: Coupled accretion-Jet (b) theoretical model: Coupled accretion-Jet 2. Prediction of Yuan & Cui for quiescent state 3.X-ray Observation results of three sources in quiescent state sources in quiescent state 4.Our modeling results

What is black hole X-ray binary?  More than 40 black hole X-ray binaries and their candidates have been found in our Galaxy.  They are in the quiescent state in most of their life.  When the accretion rate increases, some instability mechanism happen, then outburst occurs, going through various states

Models for various Spectral states Esin et al. 1997, ApJ

Spectral states in black hole binaries Quiescent State: Quiescent State: - Large transient radius; - very low luminosity, L x ~ erg/s ; - power law spectrum photon index  =1.5~2.1; - Jet is thought to be exist Hard State: Hard State: - power law spectrum >80% (2-20keV) - power law spectrum photon index  =1.4~2.1 - strong varibility (QPO) - strong radio emission (Jet exist) SPL/Very High State/Intermediate State : SPL/Very High State/Intermediate State : - power law spectrum photon index  >2.4 - power law component>20% (2-20keV)and QPO - power law component>50% (2-20keV) and no QPO - radio flare at HS  VHS High Soft State (Thermal Dominant State): High Soft State (Thermal Dominant State): - disk component>75%(2-20keV) - no QPO or QPO is toot weak to be detected - very weak radio emission and no Jet exist - power law spectrum photon index  =2.1~4.8 Done, C. 2007, A&ARv

Coupled Accretion-Jet Models SSD: Opt/UV ADAF: X-ray, Opt/UV Jet: Radio, infrared

Coupled Accretion-Jet Models Standard thin disk (SSD):  Standard thin disk (SSD): -geometrical thin, optical thick - T  r -3/4 -multicolor black body spectrum Advection Dominated Accretion Flow (ADAF):  Advection Dominated Accretion Flow (ADAF): -geometrical thick, optical thin -Compton scattering, synchrotron, bremsstrahlung -strong advection, low emission efficiency -double high temperature plasma Jet model:  Jet model: -internal shock -power law distribution of electron -synchrotron emission dominated

ADAF-Jet Models for hard state Yuan, Cui & Narayan, 2005, ApJ Success in hard state of XTE J ! SSD ADAF Jet

Radio/X-ray correlation Gallo et al. 2003, MNRAS, 344 L R ~L X 0.7

Yuan & Cui 2005 prediction 1. When the accretion rate decreases, the correlation between the radio and X-ray still exist, but when the luminosity lower than a certain critical value, the correlation will change and become more steeper than before. Because L acc,x  M 2, L Jet,x  M. So most of the X-ray comes from Jet in quiescent state. 2.Because jet radiation dominates below this critical luminosity, the spectrum of X-ray is a power law.  

The change of the radio—X-ray correlation from hard to quiescent states The critical luminosity : Yuan & Cui 2005,ApJ L crit ~(10 -5 ~10 -6 )L Edd

Recent new study result: Yuan & Cui 2005 also predicted: Recently, Wrobel, Terashima & Ho 2008 studied two quiesent LLAGN in NGC 4621 and NGC 4697, they found the observed radio luminosity is within a factor of 3 of the predicted value (based on L x ~10 -9 L Edd and the relation above).

XMM/Newton Observation of Quiescent Sources XTE J GRO J We observed two black hole X-ray binaries XTE J and GRO J V404 Cyg for long time by XMM-Newton. We also analysed V404 Cyg from archival data.

Jet SSD ADAF Modeling results (GRO J )

Jet SSD ADAF Modeling results (V404Cyg)

Jet SSD ADAF Modeling results (XTE J )

Conclusion In quiescent black hole X-ray binaries, the X-ray emission originates from Jet ! Jet model can fit all the X-ray spectrum of these three sources, but for XTE J , It can also be modeled by ADAF. Because the spectrum of ADAF is curved at low accretion rate, however, the spectrum of Jet is power-law.