7,485 research outputs found
The Proper Motion of SgrA*: I. First VLBA Results
We observed Sgr A* and two extragalactic radio sources nearby in angle with
the VLBA over a period of two years and measured relative positions with an
accuracy approaching 0.1 mas. The apparent proper motion of Sgr A* relative to
J1745-283 is 5.90 +/- 0.4 mas/yr, almost entirely in the plane of the Galaxy.
The effects of the orbit of the Sun around the Galactic Center can account for
this motion, and any residual proper motion of Sgr A*, with respect to
extragalactic sources, is less than about 20 km/s. Assuming that Sgr A* is at
rest at the center of the Galaxy, we estimate that the circular rotation speed
in the Galaxy at the position of the Sun is 219 +/- 20 km/s, scaled by Ro/8.0
kpc.
Current observations are consistent with Sgr A* containing all of the nearly
2.6 x 10^6 solar masses, deduced from stellar proper motions, in the form of a
massive black hole. While the low luminosity of Sgr A*, for example, might
possibly have come from a contact binary containing of order 10 solar masses,
the lack of substantial motion rules out a "stellar" origin for Sgr A*. The
very slow speed of Sgr A* yields a lower limit to the mass of Sgr A* of about
1,000 solar masses. Even for this mass, Sgr A* appears to be radiating at less
than 0.1 percent of its Eddington limit
Falerii novi (comune di fabrica di Roma, provincia di viterbo, regione lazio)
As part of the AHRC-funded “Beneath the Surface of Roman Republican Cities” project (2015-17), our team is pursuing a full-coverage Ground Penetrating Radar (GPR) survey of the entire intra-mural area of the Roman town of Falerii Novi, in combination with an assessment of the unpublished pottery from the excavations of 1969-75: our objective is to further our knowledge and understanding of the Roman town and its earlier phases of settlement (Launaro et al. 2016; 2017)
Conjugate 18cm OH Satellite Lines at a Cosmological Distance
We have detected the two 18cm OH satellite lines from the
source PKS1413+135, the 1720 MHz line in emission and the 1612 MHz line in
absorption. The 1720 MHz luminosity is , more than
an order of magnitude larger than that of any other known 1720 MHz maser. The
profiles of the two satellite lines are conjugate, implying that they arise in
the same gas. This allows us to test for any changes in the values of
fundamental constants, without being affected by systematic uncertainties
arising from relative motions between the gas clouds in which the different
lines arise. Our data constrain changes in ,
where ; we find ,
consistent with no changes in , and .Comment: 5 pages, 1 figure. Minor changes to match published versio
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Interamna lirenas and its territory (comune di pignataro interamna, provincia di frosinone, regione lazio)
The archaeological fieldwork at Interamna Lirenas is part of an integrated research project involving geophysical prospection, field survey and excavation, all aimed at exploring the long-term development of the Roman town and its territory from its colonial origin (late 4th c. BC) well into Late Antiquity (6th c. AD) (Bellini, Launaro and Millett 2014). The full coverage Ground Penetrating Radar (GPR) survey of the urban area (in collaboration with Ghent University) and the main excavation of the roofed theatre (theatrum tectum) were brought to completion in the course of the eighth fieldwork season (2017)
The unfriendly ISM in the radio galaxy 4C12.50 (PKS 1345+12)
The radio source 4C12.50 has often been suggested to be a prime candidate for
the link between ultraluminous infrared galaxies and young radio galaxies. A
VLBI study of the neutral hydrogen in the nuclear regions of this object shows
that most of the gas detected close to the systemic velocity is associated with
an off-nuclear cloud (~50 to 100 pc from the radio core) with a column density
of ~10^22 T_spin/100 K) cm^(-2) and an HI mass of a few times 10^5 to 10^6
M_sun. We consider a number of possibilities to explain the results. In
particular, we discus the possibility that this cloud indicates the presence of
a rich and clumpy interstellar medium in the centre, likely left over from the
merger that triggered the activity and that this medium influences the growth
of the radio source. The location of the cloud -- at the edge of the northern
radio jet/lobe -- suggests that the radio jet might be interacting with a gas
cloud. This interaction could be responsible for bending the young radio jet.
The velocity profile of the gas is relatively broad (~150$ km/s) and we
interpret this as kinematical evidence for interaction of the radio plasma with
the cloud. We also consider the model where the cloud is part of a broader
circumnuclear structure. Only a limited region of this structure would have
sufficient background radio brightness and large enough column depth in neutral
gas to obtain detectable HI absorption against the counterjet. The VLBI study
of the neutral hydrogen in 4C12.50 suggests that HI detected near the systemic
velocity (as it is often the case in radio galaxies) may not necessarily be
connected with a circumnuclear disk or torus (as is very often assumed) but
instead could be a tracer of the large-scale medium that surrounds the active
nucleus and that may influence the growth of the young radio source.Comment: 7 pages, 2 figures. Accepted for publication in A&
Images of an equatorial outflow in SS433
We have imaged the X-ray binary SS433 with unprecedented Fourier-plane
coverage at 6cm using simultaneously the VLBA, MERLIN, and the VLA, and also at
20cm with the VLBA. At both wavelengths we have securely detected smooth,
low-surface brightness emission having the appearance of a `ruff' or collar
attached perpendicularly to the well-studied knotty jets in this system,
extending over at least a few hundred AU. We interpret this smooth emission as
a wind-like outflow from the binary, and discuss its implications for the
present evolutionary stage of this system.Comment: Accepted by ApJ Letter
Identification of the Mass Donor Star's Spectrum in SS 433
We present spectroscopy of the microquasar SS 433 obtained near primary
eclipse and disk precessional phase Psi = 0.0, when the accretion disk is
expected to be most ``face-on''. The likelihood of observing the spectrum of
the mass donor is maximized at this combination of orbital and precessional
phases since the donor is in the foreground and above the extended disk
believed to be present in the system. The spectra were obtained over four
different runs centered on these special phases. The blue spectra show clear
evidence of absorption features consistent with a classification of A3-7 I. The
behavior of the observed lines indicates an origin in the mass donor. The
observed radial velocity variations are in anti-phase to the disk, the
absorption lines strengthen at mid-eclipse when the donor star is expected to
contribute its maximum percentage of the total flux, and the line widths are
consistent with lines created in an A supergiant photosphere. We discuss and
cast doubt on the possibility that these lines represent a shell spectrum
rather than the mass donor itself. We re-evaluate the mass ratio of the system
and derive masses of 10.9 +/- 3.1 Msun and 2.9 +/- 0.7 Msun for the mass donor
and compact object plus disk, respectively. We suggest that the compact object
is a low mass black hole.
In addition, we review the behavior of the observed emission lines from both
the disk/wind and high velocity jets.Comment: submitted to ApJ, 24 pages, 7 figure
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