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Two populations and models of gamma ray bursts (1993)

Katz, J. I.

In: CASI

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Publication Date: 2019-06-28

Description: Gamma-ray burst statistics are best explained by a source population at cosmological distances, while spectroscopy and intensity histories of some individual bursts imply an origin on Galactic neutron stars. To resolve this inconsistency I suggest the presence of two populations, one at cosmological distances and the other Galactic. I build on ideas of Shemi and Piran (1990) and of Rees and Mesozaros (1992) involving the interaction of fireball debris with surrounding clouds to explain the observed intensity histories in bursts at cosmological distances. The distances to the Galactic population are undetermined because they are too few to affect the statistics of intensity and direction; I explain them as resulting from magnetic reconnection in neutron star magnetospheres. An appendix describes the late evolution of the debris as a relativistic blast wave.

Keywords: SPACE RADIATION

Type: NASA-CR-194762 , NAS 1.26:194762

Format: application/pdf

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2

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Relativistic shock spectra: A prediction (1994)

Katz, J. I.

In: CASI

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Publication Date: 2019-06-28

Description: I argue that particles heated by relativistic shocks should assume an equilibrium energy distribution. This leads to a synchrotron spectrum F(sub nu) varies as nu(sup 1/3) up to approximately the critical frequency nu(sub 0) of an electron with the mean electron energy. Application to gamma ray bursts (GRB's) implies that a burst with 10(exp -5) erg/(sq cm s) of soft gamma-rays and h(nu(sub 0)) = 300 KeV should be about 18th magnitude in visible light and a few micro-Jy at 1 GHz (less if self-absorbed).

Keywords: SPACE RADIATION

Type: NASA-CR-194764 , NAS 1.26:194764

Format: application/pdf

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Radio and optical emission: Spectral shapes and breaks in GRB (1994)

Katz, J. I.

In: CASI

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Publication Date: 2019-06-28

Description: Relativistic blast wave models of Gamma Ray Bursts (GRB) predict the spectrum of the emitted synchrotron radiation. The electrons in the shocked region are heated to a Wien distribution whose 'temperature' is 1/3 of the mean electron energy. This energy determines a characteristic (break) frequency of synchrotron radiation. At much lower frequencies, a spectrum F(sub nu) varies as nu(sup 1/3) is predicted independently of the details of the emitting region. This is consistent with the observed soft x ray emission of GRB. It implies low visible and radio intensities, unless there are collective emission processes.

Keywords: SPACE RADIATION

Type: NASA-CR-194763 , NAS 1.26:194763

Format: application/pdf

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Low-frequency spectra of gamma-ray bursts (1994)

Katz, J. I.

In: Other Sources

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Publication Date: 2019-08-28

Description: Particles with energies below the mean energy E(sub 0) in relativistic shocked plasmas should assume an equilibrium energy distribution. This leads to a synchrotron spectrum F(sub nu) proportional to nu(exp 1/3) up to approximately the critical frequency nu(sub 0) of an electron with the energy E(sub 0). Application to gamma-ray bursts (GRBs) implies that a burst with 10(exp -5) ergs/sq cm/s of soft gamma rays and h nu(sub 0) = 300 keV should simultaneously be about 18th magnitude in visible light and a few micro-J at 1 GHz (less if self-absorbed); the low-freqency intensities peak later at higher values.

Keywords: SPACE RADIATION

Type: Astrophysical Journal, Part 2 - Letters (ISSN 0004-637X); 432; 2; p. L107-L109

Format: text

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5

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Radiation transfer in gamma-ray bursts (1992)

Katz, J. I. ; Carrigan, B. J.

In: Other Sources

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Publication Date: 2019-08-28

Description: We have calculated gamma-ray radiative transport in regions of high-energy density, such as gamma-ray burst source regions, using a discrete ordinate, discrete energy group method. The calculations include two-photon pair production and annihilation, as well as three-photon annihilation. The radiation fields itself acts as an absorbing medium, and the optical depth depends on its intensity, so the problem is intrinsically nonlinear. Spherical divergence produces effective collimation of the flux. At high optical depth the high energy (E is greater than 1 MeV) portion of the emergent spectrum assumes a nearly universal form. An approximate limit is derived for the high-energy flux from a gamma-ray burst source region of given size, and the implications of this limit for the distance to the 1979 March 5 event are briefly discussed. We discuss more generally the problem of very luminous bursts, and implications of Galactic halo distances for flare models.

Keywords: SPACE RADIATION

Type: Astrophysical Journal, Part 1 (ISSN 0004-637X); 399; 1; p. 100-107.

Format: text

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