6,649 research outputs found
Observations of the Ca II K line in Hel0830A dark points on August 3, 1985
Spectroheliograms taken in the light of He I 10830 A at the National Solar Observatory Vacuum Telescope on Kitt Peak were used to identify coronal holes and bright points (BPs). Target points were identified, coordinates calculated, and spectra recorded. For each spectrum, the difference in wavelength between the Ca II K minimum and the FeI reference line was calculated. It was noteworthy that the overall effect is a blueshift. It should be noted that if material of chromospheric density moves outward at this velocity, it could supply the mass flux of the solar wind if this chromospheric flow was concentrated in a few dozen sources, each of a diameter of a few arc seconds
Search for radio pulsations in LS I +61 303
Context. LS I +61 303 is a member of the select group of gamma-ray binaries:
galactic binary systems that contain a massive star and a compact object, show
a changing milliarcsecond morphology and a similar broad spectral energy
distribution (SED) that peaks at MeV-TeV energies and is modulated by the
orbital motion. The nature of the compact object is unclear in LS I +61 303, LS
5039 and HESS J0632+057, whereas PSR B1259-63 harbours a 47.74 ms radio pulsar.
Aims. A scenario in which a young pulsar wind interacts with the stellar wind
has been proposed to explain the very high energy (VHE, E > 100 GeV) gamma-ray
emission detected from LS I +61 303, although no pulses have been reported from
this system at any wavelength. We aim to find evidence of the pulsar nature of
the compact object. Methods. We performed phased array observations with the
Giant Metrewave Radio Telescope (GMRT) at 1280 MHz centred at phase 0.54.
Simultaneous data from the multi-bit phased array (PA) back-end with a sampling
time of tsamp = 128 microsec and from the polarimeter (PMT) back-end with tsamp
= 256 microsec where taken. Results. No pulses have been found in the data set,
with a minimum detectable mean flux density of \sim 0.38 mJy at 8-sigma level
for the pulsed emission from a putative pulsar with period P >2 ms and duty
cycle D = 10% in the direction of LS I +61 303. Conclusions. The detection of
posible radio pulsations will require deep and sensitive observations at
frequencies \sim0.5-5 GHz and orbital phases 0.6-0.7. However, it may be
unfeasible to detect pulses if the putative pulsar is not beamed at the Earth
or if there is a strong absorption within the binary system.Comment: 8 pages. 5 figures. Accepted for publication in Astronomy and
Astrophysic
Constraining the near-IR background light from Population-III stars using high redshift gamma-ray sources
The Fermi satellite has detected GeV emission from a number of gamma-ray
bursts and active galactic nuclei at high redshift, z > 1.5. We examine the
constraints that the detections of gamma rays from several of these sources
place on the contribution of population-III stars to the extragalactic
background light. Emission from these primordial stars, particularly redshifted
Lyman-alpha emission, can interact with gamma rays to produce electron-positron
pairs and create an optical depth to the propagation of gamma-ray emission, and
the detection of emission above 10 GeV can therefore constrain the production
of this background. We consider two initial mass functions for the early stars,
and use derived SEDs for each to put upper limits on the star-formation rate
density of massive early stars from redshifts 6 to 10. Our limits are
complementary to those set on a high near-IR background flux by ground-based
TeV-scale observations, and show that current data can limit star-formation in
the late stages of reionization to less than 0.5 M_solar yr^-1 Mpc^-3. Our
results also show that the total background flux from population-III stars must
be considerably less than that from resolved galaxies at wavelengths below 1.5
microns.Comment: 13 pages, 7 figures, 1 table. Accepted to MNRAS. Updated to reflected
accepted version, 1 figure added, minor edits mad
On The GeV & TeV Detections of the Starburst Galaxies M82 & NGC 253
The GeV and TeV emission from M82 and NGC 253 observed by Fermi, HESS, and
VERITAS constrains the physics of cosmic rays (CRs) in these dense starbursts.
We argue that the gamma rays are predominantly hadronic in origin, as expected
by previous studies. The measured fluxes imply that pionic losses are efficient
for CR protons in both galaxies: we show that a fraction F_cal ~ 0.2 - 0.4 of
the energy injected in high energy primary CR protons is lost to inelastic
proton-proton collisions (pion production) before escape, producing gamma rays,
neutrinos, and secondary electrons and positrons. We discuss the factor ~2
uncertainties in this estimate, including supernova rate and leptonic
contributions to the GeV-TeV emission. We argue that gamma-ray data on ULIRGs
like Arp 220 can test whether M82 and NGC 253 are truly calorimetric, and we
present upper limits on Arp 220 from the Fermi data. We show that the observed
ratio of the GeV to GHz fluxes of the starbursts suggests that non-synchrotron
cooling processes are important for cooling the CR electron/positron
population. We briefly reconsider previous predictions in light of the
gamma-ray detections, including the starburst contribution to the gamma-ray
background and CR energy densities. Finally, as a guide for future studies, we
list the brightest star-forming galaxies on the sky and present updated
predictions for their gamma-ray and neutrino fluxes.Comment: 15 pages, emulateapj format, accepted to ApJ, Table 1 fixe
Diffuse Hard X-ray Emission in Starburst Galaxies as Synchrotron from Very High Energy Electrons
[Abdriged] The origin of the diffuse hard X-ray (2 - 10 keV) emission from
starburst galaxies is a long-standing problem. We suggest that synchrotron
emission of 10 - 100 TeV electrons and positrons (e+/-) can contribute to this
emission, because starbursts have strong magnetic fields. We consider three
sources of e+/- at these energies: (1) primary electrons directly accelerated
by supernova remnants; (2) pionic secondary e+/- created by inelastic
collisions between CR protons and gas nuclei in the dense ISMs of starbursts;
(3) pair e+/- produced between the interactions between 10 - 100 TeV gamma-rays
and the intense far-infrared (FIR) radiation fields of starbursts. We create
one-zone steady-state models of the CR population in the Galactic Center (R <=
112 pc), NGC 253, M82, and Arp 220's nuclei, assuming a power law injection
spectrum for electrons and protons. We compare these models to extant radio and
GeV and TeV gamma-ray data for these starbursts, and calculate the diffuse
synchrotron X-ray and Inverse Compton (IC) luminosities of these starbursts. If
the primary electron spectrum extends to ~PeV energies and has a
proton/electron injection ratio similar to the Galactic value, we find that
synchrotron contributes 2 - 20% of their unresolved, diffuse hard X-ray
emission. Inverse Compton emission is likewise a minority of the unresolved
X-ray emission in these starbursts, from 0.1% in the Galactic Center to 10% in
Arp 220's nuclei. We also model generic starbursts, including submillimeter
galaxies, in the context of the FIR--X-ray relation, finding that up to 2% in
the densest starbursts with our fiducial assumptions. Neutrino and TeV
gamma-ray data can further constrain the synchrotron X-ray emission of
starbursts. Our models do not constrain hard synchrotron X-ray emission from
any additional hard components of primary e+/- from sources like pulsars in
starbursts.Comment: Accepted by ApJ; 31 pages, emulateapj forma
Long-term spectral and timing properties of the soft gamma-ray repeater SGR 1833-0832 and detection of extended X-ray emission around the radio pulsar PSR B1830-08
SGR 1833-0832 was discovered on 2010 March 19 thanks to the Swift detection
of a short hard X-ray burst and follow-up X-ray observations. Since then, it
was repeatedly observed with Swift, Rossi X-ray Timing Explorer, and
XMM-Newton. Using these data, which span about 225 days, we studied the
long-term spectral and timing characteristics of SGR 1833-0832. We found
evidence for diffuse emission surrounding SGR 1833-0832, which is most likely a
halo produced by the scattering of the point source X-ray radiation by dust
along the line of sight, and we show that the source X-ray spectrum is well
described by an absorbed blackbody, with temperature kT=1.2 keV and absorbing
column nH=(10.4+/-0.2)E22 cm^-2, while different or more complex models are
disfavoured. The source persistent X-ray emission remained fairly constant at
about 3.7E-12 erg/cm^2/s for the first 20 days after the onset of the bursting
episode, then it faded by a factor 40 in the subsequent 140 days, following a
power-law trend with index alpha=-0.5. We obtained a phase-coherent timing
solution with the longest baseline (225 days) to date for this source which,
besides period P=7.5654084(4) s and period derivative dP/dt=3.5(3)E-12 s/s,
includes higher order period derivatives. We also report on our search of the
counterpart to the SGR at radio frequencies using the Australia Telescope
Compact Array and the Parkes radio telescope. No evidence for radio emission
was found, down to flux densities of 0.9 mJy (at 1.5 GHz) and 0.09 mJy (at 1.4
GHz) for the continuum and pulsed emissions, respectively, consistently with
other observations at different epochs.Comment: 12 pages, 7 colour figures and 3 tables, accepted for publication in
MNRAS. Figure 6 in reduced quality and abstract abridged for astro-ph
submissio
Children’s depressive symptoms and their regulation of negative affect in response to vignette-depicted emotion-eliciting events
The present study examined the relationship between sub-clinical depressive symptoms and children's anticipated cognitive and behavioral reactions to two written vignettes depicting emotion-eliciting stressors (i.e., fight with one's best friend and failure at a roller blade contest). Participants (N = 244) ranging in age between 10 and 13 were presented each vignette and then asked to rate their anticipated utilization of each of seven emotion-regulation strategies (ERs), along with the anticipated mood enhancement effects of each strategy. In addition, ratings of participants' perceived coping efficacy to manage the stressful situation were collected. Results indicated that participants were more likely to endorse ERs for which they have greater confidence in their mood enhancement effects. Moreover, marked differences were observed between ratings for conceptually distinct cognitive ERs. Consistent with expectations, results revealed that participants displaying higher levels of depressive symptoms were more likely to endorse cognitive and behavioral ERs that are negative, passive, and/or avoidant in nature. Children's ratings of the anticipated mood enhancement effects of several ERs were inversely related to their level of depressive symptoms, as was their perceived self-efficacy to manage the stressor. © 2007 The International Society for the Study of Behavioural Development
PSRs J0248+6021 and J2240+5832: Young Pulsars in the Northern Galactic Plane. Discovery, Timing, and Gamma-ray observations
Pulsars PSR J0248+6021 (rotation period P=217 ms and spin-down power Edot =
2.13E35 erg/s) and PSR J2240+5832 (P=140 ms, Edot = 2.12E35 erg/s) were
discovered in 1997 with the Nancay radio telescope during a northern Galactic
plane survey, using the Navy-Berkeley Pulsar Processor (NBPP) filter bank. GeV
gamma-ray pulsations from both were discovered using the Fermi Large Area
Telescope. Twelve years of radio and polarization data allow detailed
investigations. The two pulsars resemble each other both in radio and in
gamma-ray data. Both are rare in having a single gamma-ray pulse offset far
from the radio peak. The high dispersion measure for PSR J0248+6021 (DM = 370
pc cm^-3) is most likely due to its being within the dense, giant HII region W5
in the Perseus arm at a distance of 2 kpc, not beyond the edge of the Galaxy as
obtained from models of average electron distributions. Its high transverse
velocity and the low magnetic field along the line-of-sight favor this small
distance. Neither gamma-ray, X-ray, nor optical data yield evidence for a
pulsar wind nebula surrounding PSR J0248+6021. The gamma-ray luminosity for PSR
J0248+6021 is L_ gamma = (1.4 \pm 0.3)\times 10^34 erg/s. For PSR J2240+5832,
we find either L_gamma = (7.9 \pm 5.2) \times 10^34 erg/s if the pulsar is in
the Outer arm, or L_gamma = (2.2 \pm 1.7) \times 10^34 erg/s for the Perseus
arm. These luminosities are consistent with an L_gamma ~ sqrt(Edot) rule.
Comparison of the gamma-ray pulse profiles with model predictions, including
the constraints obtained from radio polarization data, favor emission in the
far magnetosphere. These two pulsars differ mainly in their inclination angles
and acceleration gap widths, which in turn explains the observed differences in
the gamma-ray peak widths.Comment: 13 pages, Accepted to Astronomy & Astrophysic
Demystifying an unidentified EGRET source by VHE gamma-ray observations
In a novel approach in observational high-energy gamma-ray astronomy,
observations carried out by imaging atmospheric Cherenkov telescopes provide
necessary templates to pinpoint the nature of intriguing, yet unidentified
EGRET gamma-ray sources. Using GeV-photons detected by CGRO EGRET and taking
advantage of high spatial resolution images from H.E.S.S. observations, we were
able to shed new light on the EGRET observed gamma-ray emission in the
Kookaburra complex, whose previous coverage in the literature is somewhat
contradictory. 3EGJ1420-6038 very likely accounts for two GeV gamma-ray sources
(E>1 GeV), both in positional coincidence with the recently reported pulsar
wind nebulae (PWN) by HESS in the Kookaburra/Rabbit complex. PWN associations
at VHE energies, supported by accumulating evidence from observations in the
radio and X-ray band, are indicative for the PSR/plerionic origin of spatially
coincident, but still unidentified Galactic gamma-ray sources from EGRET. This
not only supports the already suggested connection between variable, but
unidentified low-latitude gamma-ray sources with pulsar wind nebulae
(3EGJ1420-6038 has been suggested as PWN candidate previoulsy), it also
documents the ability of resolving apparently confused EGRET sources by
connecting the GeV emission as measured from a large-aperture space-based
gamma-ray instrument with narrow field-of-view but superior spatial resolution
observations by ground-based atmospheric Cherenkov telescopes, a very promising
identification technique for achieving convincing individual source
identifications in the era of GLAST-LAT.Comment: 4 pages, 5 figures, Accepted for publication in Astrophysics and
Space Science, Proc. of "The Multi-Messenger Approach to High-Energy
Gamma-ray Sources (Third Workshop on the Nature of Unidentified High-Energy
Sources)", Barcelona, July 4-7, 2006, one typo correcte
Redshift Limits of BL Lacertae Objects from Optical Spectroscopy
Context: BL Lacertae objects have been the targets for numerous recent
multiwavelength campaigns, continuum spectral variability studies, and
theoretical spectral and variability modeling. A meaningful interpretation of
the results of such studies requires a reliable knowledge of the objects'
redshifts; however, the redshifts for many are still unknown or uncertain.
Aims: Therefore, we hope to determine or constrain the redshifts of six BL Lac
objects with unknown or poorly known redshifts. Methods: Observations were made
of these objects with the MDM 2.4 m Hiltner telescope. Although no spectral
features were detected, and thus no redshifts could be measured, lower redshift
limits were assigned to the objects based on the expected equivalent widths of
absorption features in their host galaxies. Redshifts were also estimated for
some objects by assuming the host galaxies are standard candles and using host
galaxy apparent magnitudes taken from the literature. Results: The commonly
used redshift of for 1219+285 is almost certainly wrong, while the
redshifts of the other objects studied remain undetermined.Comment: 4 pages, 2 figures. Accepted by A&A Research Note
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