38 research outputs found
Non destructive testing research in France
After a summary reviewing of the industrial problems concerning ND T, the Author presents, the différent technics
used for that, and gives their interest and limites . In the second part the Ahthor presents what are the research
subjects which are runing now, in France, and presents the différent labs and sponsors which execute or pay it .Après une présentation sommaire des problèmes industriels motivant les travaux dans le domaine des contrôles
non destructifs, l'auteur examine les différents moyens utilisés pour ces contrôles et en précise l'intérêt et les
limites . Dans la deuxième partie, l'auteur présente les thèmes abordés par les programmes de recherche en cours
ou à venir et brosse un tableau des différents organismes privés ou étatiques qui financent ou réalisent ces
recherches
Simultaneous Observations of GRS 1758-258 in 1997 by VLA, IRAM, SEST, RXTE and OSSE: Spectroscopy and Timing
We report the results of our multi-wavelength observations of GRS 1758-258
made in August 1997. The energy bands include radio, millimeter, X-ray, and
gamma-ray. The observations enable us to obtain a complete spectrum of the
source over an energy range of 2 - 500 keV. The spectrum shows that GRS
1758-258 was in its hard state. It is well fitted by the Sunyaev-Titarchuk (ST)
Compton scattering model. The spectrum is also fit by a power law with an
exponential cutoff (PLE) plus a soft black-body component. The temperature of
the soft component is about 1.2 keV, and the energy flux is less than 1.5% of
the total X- and gamma-ray flux. The deduced hydrogen column density is in the
range of (0.93 - 2.0) 10^{22} cm^{-2}. No significant iron lines are detected.
The radio emission has a flat energy spectrum. The daily radio, X-ray and
gamma-ray light curves show that GRS 1758-258 was stable during the observation
period, but was highly variable on smaller time scales in X- and gamma-rays.
The power density spectra are typical for the low-state, but we find the photon
flux for the 5 to 10 keV band to be more variable than that in the other two
energy bands (2 - 5 keV and 10 - 40 keV). Harmonically spaced quasi-periodic
oscillations (QPOs) are observed in the power spectra. The phase lags between
the hard photons and the soft photons have a flat distribution over a wide
range of frequencies. A high coherence of about 1.0 (0.01 - 1 Hz) between the
hard photons and the soft photons is also obtained in our observations. We
compare these results with two variation models. Our millimeter observations
did not reveal any conclusive signatures of an interaction between the jet from
GRS 1758-258 and the molecular cloud that lies in the direction of GRS
1758-258.Comment: 32 pages, 13 figures, to appear in ApJ, 2000, V.533, no. 1, Apr. 10.
For better figure resolution, please directly download the paper from
http://spacsun.rice.edu/~lin/publication.htm
Lithium Production in Companions of Accreting X-Ray Binaries by Neutron Spallation of C,N,O Elements
We examine the processes which could lead to the observed enhancement of Li
and possibly other light elements (Be, B) in the companions of a number of
X-ray novae. We conclude that one of the most promising mechanisms is the
spallation of CNO elements on the surface of the companion induced by the
neutron flux produced in the hot accretion flow onto the compact object. Direct
production of the observed Li and its deposition onto the dwarf companion seem
less likely, mainly because of the possibility of its destruction in the
production region itself and difficulties in its deposition associated with the
configuration of the companion's magnetic field. We discuss other potential
observables of the above scenario.Comment: 23 pages Latex, of which 5 pages of tables, to appear in the
Astrophysical Journal, Vol 512, Feb 10 issu
Evolution of Iron K Line Emission in the Black Hole Candidate GX 339-4
GX 339-4 was regularly monitored with RXTE during a period (in 1999) when its
X-ray flux decreased significantly (from 4.2 erg cm to 7.6 erg cms in the 3--20 keV band),
as the source settled into the ``off state''. Our spectral analysis revealed
the presence of a prominent iron K line in the observed spectrum of
the source for all observations. The line shows an interesting evolution: it is
centered at 6.4 keV when the measured flux is above 5
erg cm, but is shifted to 6.7 keV at lower fluxes. The
equivalent width of the line appears to increase significantly toward lower
fluxes, although it is likely to be sensitive to calibration uncertainties.
While the fluorescent emission of neutral or mildly ionized iron atoms in the
accretion disk can perhaps account for the 6.4 keV line, as is often invoked
for black hole candidates, it seems difficult to understand the 6.7 keV line
with this mechanism, because the disk should be less ionized at lower fluxes
(unless its density changes drastically). On the other hand, the 6.7 keV line
might be due to recombination cascade of hydrogen or helium like iron ions in
an optically thin, highly ionized plasma. We discuss the results in the context
of proposed accretion models.Comment: 18 pages, 2 figures, accepted for publication in the ApJ in v552n2p
May 10, 2001 issu