Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published by Modified over 9 years ago

Similar presentations

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

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

2 Content Search for luminous young X-ray pulsars in the Milky Way and nearby galaxies Black hole X-ray binaries powered by accretion? What are the most luminous non-nuclear X-ray sources in galaxies? (Ultraluminous X-ray sources = ULXs) Young neutron stars powered by spin-down? Constraints to the initial NS spin distribution

3 What are ultraluminous X-ray sources (ULXs) Non-nuclear X-ray sources Non-nuclear X-ray sources with apparent L x ~ 10 39 -10 40 erg/s Neutron star XRBs ULXs NGC6946 (d ~ 6 Mpc) Antennae (d ~ 20 Mpc)

4 What are ultraluminous X-ray sources (ULXs) Non-nuclear X-ray sources Non-nuclear X-ray sources with apparent L x ~ 10 39 -10 40 erg/s Most luminous X-ray source in the Milky Way: GRS 1915+105: L x ~ 1 x 10 39 erg/s Eddington luminosity for “typical” stellar-mass BHs: L x ~ 1 x 10 39 erg/s Peak luminosity of MW X-ray binaries in outburst L x ~ 0.5-1 x 10 39 erg/s

5 What are ultraluminous X-ray sources (ULXs) Non-nuclear X-ray sources Non-nuclear X-ray sources with apparent L x ~ 10 39 -10 40 erg/s Higher BH masses (100 M sun ? 1000 M sun ?) Moderately beamed emission Super-Eddington luminosity If ULXs are powered by accretion, they require either: But no such problem (no Eddington limit) if ULXs are not powered by accretion

6 Most luminous X-ray sources (L x ~ 10 40 erg/s) found in starburst, starforming or colliding galaxies (not in massive ellipticals) High-mass X-ray binaries? Supernovae, young supernova remnants? Young pulsars? (Swartz et al 2004)

7 Supernovae produce (mostly) thermal emission from shocked gas after the reverse shock (shocked ejecta) X-ray emission from supernovae ShockedISM/CSM UndisturbedISM/CSM Hot (shocked) ejecta ? Cold ejecta

8 (Immler & Kuntz 2005) Young SNe can have L x ~ 10 39 – 10 41 erg/s But steady decline over ~ 1000 yr

9 Young supernovae cannot explain ULXs (= power-law-dominated X-ray spectra) SN1993J in M81 (Zimmermann & Aschenbach 2003) ULX in Holmberg II Mekal spectrum Power-law + diskbb

10 SNe and SNR have softer X-ray colours than ULXs, X-ray pulsars and XRBs ULXs SNRs SNRs (Soria & Wu 2003) (Swartz et al 2004)

11 Composite supernova remnants: fast-spinning pulsar and pulsar wind nebula inside the expanding SN remnant

12 Gallery of X-ray bright pulsar wind nebulae (Gaensler & Slane 2006)

13 Gallery of X-ray bright pulsar wind nebulae (Kargaltsev & Pavlov 2008)

14 155ks Chandra observation from 2006, Ng et al (2008) Pulsar J1846-0258 (Kes 75) Age ~ 900 yr P = 324 ms B = 5E13 Gauss D = 6 kpc Edot ~ 1E37 erg/s L x ~ 2E36 erg/s

15 Magnetospheric emission + wind nebula powered by pulsar spin-down powered by pulsar spin-down From radio pulsar measurements and evolution models: magnetic field at birth (Arzoumanian et al 2002) (Faucher-Giguere & Kaspi 2006)

16 On-line pulsar catalog On-line pulsar catalog from the Australia Telescope National Facility 1E121E13

17

18 Possenti et al (2002)

19 Kargaltsev & Pavlov (2008) based on Chandra data

20 Maximum luminosity limited only by initial NS spin and magnetic field (no Eddington limit) Then L x declines with time, after a timescale ~ 10 3 yr

21

22 Different X-ray components P-L synchrotron emission from pulsar magnetosphere BB emission from polar cap (heated by polar-gap current) BB emission from polar cap (heated by outer-gap current) P-L synchrotron emission from wind nebula (jet, torus, termination shock) Spatially unresolved in other galaxies + + + LxLxLxLx

23 Expected spectral appearance: Power-law (photon index ~ 2) + soft bb component (T ~ 0.2 keV) (possibly in addition to optically-thin thermal-plasma emission from the surrounding SNR)

24 Pulsar+PWN X-ray spectra may look similar to the X-ray spectra of ULXs. Just a coincidence?

25 Young X-ray pulsars P 0, B 0 P 0, B 0 Old radio pulsars P(t), B(t) P(t), B(t) Determine P(t), B(t) from old pulsars Infer P 0, B 0 for young pulsars LOTS OF THEM VERY FEW OF THEM [Evolution models]

26 Young X-ray pulsars P 0, B 0 P 0, B 0 Old radio pulsars P(t), B(t) P(t), B(t) Infer P 0, B 0 for young pulsars LOTS OF THEM VERY FEW OF THEM Calculate X-ray luminosity expected for those P 0, B 0 Measure X-ray luminosity of young pulsars in nearby galaxies Direct way to constrain P 0, B 0

27 Observed distribution of old radio pulsars Evolution models by Arzoumanian et al. (2002) Predicted X-ray luminosity of pulsars at birth (Stella & Perna 2004)

28 Predicted number of X-ray pulsars and high-mass X-ray binaries as a function of star-formation-rate (Stella & Perna 2004)

29 Perna fig 1 We measured or constrained the X-ray luminosity of ~ 100 historical SNe with ages ~ 10-100 yrs (Chandra, XMM, Swift data) We found fewer (fainter) X-ray pulsars than predicted (Perna et al 2008)

30 Assuming we know birth rate and magnetic field Constraints on birth period For a log-normal distribution, (Perna et al 2008) NOT ALLOWED ALLOWED ALLOWED

31 X-ray luminosity associated with every core-collapse SN from 1900-1970 in galaxies at distances <= 15 Mpc from 1900-1970 in galaxies at distances <= 15 Mpc

32 One of the very few Crab-like young pulsar candidates, One of the very few Crab-like young pulsar candidates, at the location of SN 1968D in NGC 6946 (L x ~ 10 37 erg/s) (Soria & Perna 2008) SN 1968D SN 1980K

33 Our X-ray survey result agrees with the pioneering study of Srinivasan et al (1984), based on X-ray and radio luminosity of young Galactic SNRs

34 Low angular parameter at birth: consistent with Spruit & Phinney’s (1998) model, initial spin ~ kick velocity Not enough energy at birth to power a hypernova Consistent with Vink & Kuiper’s (2006) study of magnetar/SNR associations Implies pre-collapse Fe core P ~ 50-100 s (Ott et al 2006)

35 Almost all NS pulsars born with P> 40 ms Why? Is it true also for stellar BHs? Are BHs born with angular parameter a ~ 0.01? Is the NS birth rate overestimated? Is the NS birth rate overestimated? Perhaps a larger fraction of core-collapse SNe forms BHs or leaves no remnant? Do many SNe produce quark stars (expected to be X-ray fainter) instead of neutron stars? Main result of our X-ray survey Alternative possibility: High-energy pulsars are a small fraction of X-ray population (Crab-like systems are rare)

36 Ultraluminous X-ray sources (ULXs) cannot be high-energy pulsars cannot be high-energy pulsars ULXs = accreting X-ray binaries with BH + donor star with BH + donor star NS XRBs Stellar BH XRBs L x <~ 3 10 38 L x <~ 10 39 L x ~ 10 40 ULXs Higher BH masses (100 M sun ? 1000 M sun ?) Beamed emission Super-Eddington emission L x ~ 10 37 Young pulsars ULXs

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

Similar presentations

The Physics of Supernovae

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

Jeanette Gladstone - University of Alberta Tim Roberts, Chris Done - Durham University Jeanette Gladstone - University of Alberta Tim Roberts, Chris Done.
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 and ULX bubbles Manfred Pakull, Fabien Grisé, C. Motch, R. Soria 0bservatoire Astronomique de Strasbourg SNR & PWN in the Chandra Era,
Shocks Jets and Active Galaxies By Drew Brumm. Shocks Strong Shocks Shocks in accretion –Compact objects –Supernova explosions Accretion of binary systems.

Shocks Jets and Active Galaxies By Drew Brumm. Shocks Strong Shocks Shocks in accretion –Compact objects –Supernova explosions Accretion of binary systems.
Millisecond pulsar population and related high energy phenomena 王 伟 (NAOC) July 2009, Pulsar Summer School Beijing.

Millisecond pulsar population and related high energy phenomena 王 伟 (NAOC) July 2009, Pulsar Summer School Beijing.
Deriving direct mass measurements of black holes in ULXs Jeanette Gladstone, T. Roberts, C. Copperwheat, A. Goulding, C. Heinke, A Swinbank, T. Cartwright,

Deriving direct mass measurements of black holes in ULXs Jeanette Gladstone, T. Roberts, C. Copperwheat, A. Goulding, C. Heinke, A Swinbank, T. Cartwright,
Strange Galactic Supernova Remnants G357.7-0.1 (the Tornado) & G350.1-0.3 in X-rays Anant Tanna Physics IV 2007 Supervisor: Prof. Bryan Gaensler.

Strange Galactic Supernova Remnants G (the Tornado) & G in X-rays Anant Tanna Physics IV 2007 Supervisor: Prof. Bryan Gaensler.
Pulsar Wind Nebulae with LOFAR Jason Hessels (ASTRON/UvA) Astrophysics with E-LOFAR - Hamburg - Sept. 16 th -19 th, 2008.

Pulsar Wind Nebulae with LOFAR Jason Hessels (ASTRON/UvA) Astrophysics with E-LOFAR - Hamburg - Sept. 16 th -19 th, 2008.
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.

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

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.

Ultraluminous X-ray sources: a mystery for modern X-ray astronomy Tim Roberts.
2007-01-182007- 01-18 The Evolution & Structure of Pulsar Wind Nebulae Gaensler, B. M., & Slane P.O. ARA&A, 2006, 44:17.

The Evolution & Structure of Pulsar Wind Nebulae Gaensler, B. M., & Slane P.O. ARA&A, 2006, 44:17.
Supernova Remnants in the ChASeM33 X-ray Survey of M33 Knox S. Long, William P. Blair, P. Frank Winkler, and the ChASeM33 team.

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.

Sean Farrell XMM-Newton Survey Science Centre University of Leicester, UK In collaboration with… N. Webb, D. Barret, O. Godet & B. Plazolles – CESR, France.
October 10, 2002COSPAR Houston, TX1 X-Ray Spectral Morphologies of Young Supernova Remnants John P. Hughes Rutgers University  Cara Rakowski, Rutgers.

October 10, 2002COSPAR Houston, TX1 X-Ray Spectral Morphologies of Young Supernova Remnants John P. Hughes Rutgers University  Cara Rakowski, Rutgers.
Neutron Stars 2: Phenomenology Andreas Reisenegger Depto. de Astronomía y Astrofísica Pontificia Universidad Católica de Chile Chandra x-ray images of.

Neutron Stars 2: Phenomenology Andreas Reisenegger Depto. de Astronomía y Astrofísica Pontificia Universidad Católica de Chile Chandra x-ray images of.
QUASARS Monsters of the ancient Universe Professor Jill Bechtold Steward Observatory Tucson Amateur Astronomers, Dec. 6, 2002.

QUASARS Monsters of the ancient Universe Professor Jill Bechtold Steward Observatory Tucson Amateur Astronomers, Dec. 6, 2002.
BH binaries. Black hole binaries High mass (few) Low-mass (majority) ULX – ultraluminous X-ray sources Most of low-mass are transients. Microquasars.

BH binaries. Black hole binaries High mass (few) Low-mass (majority) ULX – ultraluminous X-ray sources Most of low-mass are transients. Microquasars.
X-ray Binaries in Nearby Galaxies Vicky Kalogera Northwestern University with Chris Belczynski (NU) Andreas Zezas and Pepi Fabbiano (CfA)

X-ray Binaries in Nearby Galaxies Vicky Kalogera Northwestern University with Chris Belczynski (NU) Andreas Zezas and Pepi Fabbiano (CfA)
Understanding LMXBs in Elliptical Galaxies Vicky Kalogera.

Understanding LMXBs in Elliptical Galaxies Vicky Kalogera.

Similar presentations

Ads by Google