Allyn F. Tennant scite author profile

The Chandra X-Ray Observatory observed the Crab Nebula and pulsar during orbital calibration. Zeroth-order images with the High-Energy Transmission Grating (HETG) readout by the Advanced CCD Imaging Spectrometer spectroscopy array (ACIS-S) show a striking richness of X-ray structure at a resolution comparable to that of the best ground-based visible-light observations. The HETG-ACIS-S images reveal, for the first time, an X-ray inner ring within the X-ray torus, the suggestion of a hollow-tube structure for the torus, and X-ray knots along the inner ring and (perhaps) along the inward extension of the X-ray jet. Although complicated by instrumental effects and the brightness of the Crab Nebula, the spectrometric analysis shows systematic variations of the Xray spectrum throughout the nebula.

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A Complete Sample of Ultraluminous X-Ray Source Host Galaxies

Swartz

Soria

Tennant

et al. 2011

ApJ

203

285

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One hundred seven ultraluminous X-ray (ULX) sources with 0.3−10.0 keV luminosities in excess of 10 39 ergs s −1 are identified in a complete sample of 127 nearby galaxies. The sample includes all galaxies within 14.5 Mpc above the completeness limits of both the Uppsala Galaxy Catalog and the Infrared Astronomical Satellite survey. The galaxy sample spans all Hubble types, a four decade range in mass, 7.5 < log(M/M ⊙ ) < 11.4, and in star-formation rate, 0.0002 < SFR(M ⊙ /yr) ≤ 3.6. ULXs are detected in this sample at rates of one per 3.2 × 10 10 M ⊙ , one per ∼0.5 M ⊙ yr −1 star-formation rate, and one per 57 Mpc 3 corresponding to a luminosity density of ∼2×10 37 erg s −1 Mpc −3 . At these rates we estimate as many as 19 additional ULXs remain undetected in fainter dwarf galaxies within the survey volume. An estimated 14 or 13%, of the 107 ULX candidates are expected to be background sources.The differential ULX luminosity function shows a power law slope α ∼ −1.2 to −2.0 with an exponential cutoff at ∼20×10 39 ergs s −1 with precise values depending on the model and on whether the ULX luminosities are estimated from their observed numbers of counts or, for a subset of candidates, from their spectral shapes. Extrapolating the observed luminosity function predicts at most one very luminous ULX, L X ∼ 10 41 ergs s −1 , within a distance as small as 100 Mpc. The luminosity distribution of ULXs within the local universe cannot account for the recent claims of luminosities in excess of 2×10 41 ergs s −1 requiring a new population class to explain these extreme objects. 5 Hence, the standard disk scaling relations between temperature, luminosity and black hole mass, well-tested for (sub-Eddington) Galactic black holes, would not be applicable to ULXs.

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The Ultraluminous X‐Ray Source Population from the Chandra Archive of Galaxies

Swartz

Ghosh

Tennant

et al. 2004

ASTROPHYS J SUPPL S

299

281

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One hundred fifty-four discrete non-nuclear ultraluminous X-ray ( ULX) sources, with spectroscopically determined intrinsic X-ray luminosities greater than 10 39 ergs s À1 , are identified in 82 galaxies observed with Chandra's Advanced CCD Imaging Spectrometer. Source positions, X-ray luminosities, and spectral and timing characteristics are tabulated. Statistical comparisons between these X-ray properties and those of the weaker discrete sources in the same fields (mainly neutron star and stellar-mass black hole binaries) are made. Sources above $10 38 ergs s À1 display similar spatial, spectral, color, and variability distributions. In particular, there is no compelling evidence in the sample for a new and distinct class of X-ray object such as the intermediate-mass black holes. Eighty-three percent of ULX candidates have spectra that can be described as absorbed power laws with index hÀi ¼ 1:74 and column density hN H i ¼ 2:24 ; 10 21 cm À2 , or $5 times the average Galactic column. About 20% of the ULXs have much steeper indices indicative of a soft, and likely thermal, spectrum. The locations of ULXs in their host galaxies are strongly peaked toward their galaxy centers. The deprojected radial distribution of the ULX candidates is somewhat steeper than an exponential disk, indistinguishable from that of the weaker sources. About 5%-15% of ULX candidates are variable during the Chandra observations (which average 39.5 ks). Comparison of the cumulative X-ray luminosity functions of the ULXs to Chandra Deep Field results suggests $25% of the sources may be background objects, including 14% of the ULX candidates in the sample of spiral galaxies and 44% of those in elliptical galaxies, implying the elliptical galaxy ULX population is severely compromised by background active galactic nuclei. Correlations with host galaxy properties confirm the number and total X-ray luminosity of the ULXs are associated with recent star formation and with galaxy merging and interactions. The preponderance of ULXs in star-forming galaxies as well as their similarities to less-luminous sources suggest they originate in a young but short-lived population such as the high-mass X-ray binaries with a smaller contribution ( based on spectral slope) from recent supernovae. The number of ULXs in elliptical galaxies scales with host galaxy mass and can be explained most simply as the high-luminosity end of the low-mass X-ray binary population.

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Gamma-Ray Activity in the Crab Nebula: The Exceptional Flare of 2011 April

Buehler

Scargle

Blandford

et al. 2012

ApJ

198

256

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The Large Area Telescope on board the Fermi satellite observed a gamma-ray flare in the Crab Nebula lasting for approximately nine days in April of 2011. The source, which at optical wavelengths has a size of ≈11 lt-yr across, doubled its gamma-ray flux within eight hours. The peak photon flux was (186 ± 6) × 10 −7 cm −2 s −1 above 100 MeV, which corresponds to a 30-fold increase compared to the average value. During the flare, a new component emerged in the spectral energy distribution, which peaked at an energy of (375 ± 26) MeV at flare maximum. The observations imply that the emission region was likely relativistically beamed toward us and that variations in its motion are responsible for the observed spectral variability.

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Discovery of Powerful Gamma-Ray Flares from the Crab Nebula

Tavani

Bulgarelli

Vittorini

et al. 2011

Science

334

260

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The well-known Crab Nebula is at the center of the SN1054 supernova remnant. It consists of a rotationally powered pulsar interacting with a surrounding nebula through a relativistic particle wind. The emissions originating from the pulsar and nebula have been considered to be essentially stable. Here, we report the detection of strong gamma-ray (100 mega-electron volts to 10 giga-electron volts) flares observed by the AGILE satellite in September 2010 and October 2007. In both cases, the total gamma-ray flux increased by a factor of three compared with the non-flaring flux. The flare luminosity and short time scale favor an origin near the pulsar, and we discuss Chandra Observatory x-ray and Hubble Space Telescope optical follow-up observations of the nebula. Our observations challenge standard models of nebular emission and require power-law acceleration by shock-driven plasma wave turbulence within an approximately 1-day time scale.

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Allyn F. Tennant

Discovery of Spatial and Spectral Structure in the X-Ray Emission from the Crab Nebula

A Complete Sample of Ultraluminous X-Ray Source Host Galaxies

The Ultraluminous X‐Ray Source Population from the Chandra Archive of Galaxies

Gamma-Ray Activity in the Crab Nebula: The Exceptional Flare of 2011 April

Discovery of Powerful Gamma-Ray Flares from the Crab Nebula

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