598 research outputs found
Orbital Variability in the Eclipsing Pulsar Binary PSR B1957+20
We have conducted timing observations of the eclipsing millisecond binary
pulsar PSR~B1957+20, extending the span of data on this pulsar to more than
five years. During this time the orbital period of the system has varied by
roughly , changing quadratically with time
and displaying an orbital period second derivative s. The previous measurement of a large negative
orbital period derivative reflected only the short-term behavior of the system
during the early observations; the orbital period derivative is now positive
and increasing rapidly. If, as we suspect, the PSR~B1957+20 system is
undergoing quasi-cyclic orbital period variations similar to those found in
other close binaries such as Algol and RS CVn, then the
companion to PSR~B1957+20 is most likely non-degenerate, convective, and
magnetically active.Comment: 9 pages, 3 figures, LaTeX, submitted ApJL 13 Dec. 1993, arz-00
A Search for Supernova-Remnant Masers Toward Unidentified EGRET Sources
Supernova remnants expanding into adjacent molecular clouds are believed to
be sites of cosmic ray acceleration and sources of energetic gamma-rays. Under
certain environmental conditions, such interactions also give rise to unusual
OH masers in which the 1720 MHz satellite line dominates over the more common
1665/7 MHz emission. Motivated by the apparent coincidence of a handful of
EGRET sources with OH(1720 MHz) maser-producing supernova remnants, we have
carried out a search using the Very Large Array for new OH(1720 MHz) masers
within the error regions of 11 unidentified EGRET sources at low Galactic
latitude. While a previously known maser associated with an HII region was
serendipitously detected, initial results indicate that no new masers were
found down to a limiting flux of, typically, 50 mJy. We discuss the
implications of this result on the nature of the unidentified Galactic EGRET
sources.Comment: 5 pages, 1 figure. To appear in Proceedings, GAMMA2001 (Baltimore,
MD, April 4-6, 2001), eds. N. Gehrels, C. Shrader, and S. Rit
An Astronomical Pattern-Matching Algorithm for Automated Identification of Whale Sharks
The largest shark species alive today, whale sharks (Rhincodon typus) are rare and poorly studied. Directed fisheries, high value in international trade, a highly migratory nature, and generally low abundance make this species vulnerable to exploitation. Mark- and-recapture studies have provided our current understanding of whale shark demographics and life history, but conventional tagging has met with limited success. To aid in conservation and management efforts, and to further our knowledge of whale shark biology, an identification technology that maximizes the scientific value of individual sighting is needed
Discovery of an Energetic Pulsar Associated with SNR G76.9+1.0
We report the discovery of PSR J2022+3842, a 24 ms radio and X-ray pulsar in
the supernova remnant G76.9+1.0, in observations with the Chandra X-ray
telescope, the Robert C. Byrd Green Bank Radio Telescope, and the Rossi X-ray
Timing Explorer (RXTE). The pulsar's spin-down rate implies a rotation-powered
luminosity Edot = 1.2 x 10^{38} erg/s, a surface dipole magnetic field strength
B_s = 1.0 x 10^{12} G, and a characteristic age of 8.9 kyr. PSR J2022+3842 is
thus the second-most energetic Galactic pulsar known, after the Crab, as well
as the most rapidly-rotating young, radio-bright pulsar known. The radio
pulsations are highly dispersed and broadened by interstellar scattering, and
we find that a large (delta-f / f ~= 1.9 x 10^{-6}) spin glitch must have
occurred between our discovery and confirmation observations. The X-ray pulses
are narrow (0.06 cycles FWHM) and visible up to 20 keV, consistent with
magnetospheric emission from a rotation-powered pulsar. The Chandra X-ray image
identifies the pulsar with a hard, unresolved source at the midpoint of the
double-lobed radio morphology of SNR G76.9+1.0 and embedded within faint,
compact X-ray nebulosity. The spatial relationship of the X-ray and radio
emissions is remarkably similar to extended structure seen around the Vela
pulsar. The combined Chandra and RXTE pulsar spectrum is well-fitted by an
absorbed power-law model with column density N_H = (1.7\pm0.3) x 10^{22}
cm^{-2} and photon index Gamma = 1.0\pm0.2; it implies that the Chandra
point-source flux is virtually 100% pulsed. For a distance of 10 kpc, the X-ray
luminosity of PSR J2022+3842 is L_X(2-10 keV) = 7.0 x 10^{33} erg s^{-1}.
Despite being extraordinarily energetic, PSR J2022+3842 lacks a bright X-ray
wind nebula and has an unusually low conversion efficiency of spin-down power
to X-ray luminosity, L_X/Edot = 5.9 x 10^{-5}.Comment: 8 pages in emulateapj format. Minor changes (including a shortened
abstract) to reflect the version accepted for publicatio
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