[No Value] Kulkarni scite author profile

Long-lived emission, known as afterglow, has now been detected from about a dozen g-ray bursts. Distance determinations place the bursts at cosmological distances, with redshifts, z, ranging from ,1 to 3. The energy required to produce these bright g-ray¯ashes is enormous: up to ,10 53 erg, or 10 per cent of the rest-mass energy of a neutron star, if the emission is isotropic. Here we present optical and near-infrared observations of the afterglow of GRB990123, and we determine a redshift of z > > 1:6. This is to date the brightest g-ray burst with a well-localized position and if the g-rays were emitted isotropically, the energy release exceeds the rest-mass energy of a neutron star, so challenging current theoretical models of the sources. We argue, however, that our data may provide evidence of beamed (rather than isotropic) radiation, thereby reducing the total energy released to a level where stellar-death models are still tenable.1 Palomar Observatory 105-24,

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Warm ionized gas in the edge-on galaxies NGC 4565 and NGC 4631

Rand¹,

Kulkarni²,

Hester³

1992

ApJ

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Distance to the 1.5 millisecond pulsar and other 4C 21.53 objects

Heiles¹,

Kulkarni²,

Stevens³

et al. 1983

ApJ

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