430 research outputs found
The Color-Period Diagram and Stellar Rotational Evolution - New Rotation Period Measurements in the Open Cluster M34
We present results from a 5-month photometric survey for stellar rotation
periods combined with a 4-year radial-velocity survey for membership and
binarity in the 220Myr open cluster M34. We report surface rotation periods for
120 stars, 83 of which are late-type cluster members. A comparison to previous
work serves to illustrate the importance of high cadence long baseline
photometric observations and membership information. The new M34 periods are
less biased against slow rotation and cleaned for non-members. The rotation
periods of the cluster members span more than an order of magnitude from 0.5
day up to 11.5 days, and trace two distinct rotational sequences - fast (C) and
moderate-to-slow (I) - in the color-period diagram. The sequences represent two
different states in the rotational evolution of the late-type cluster members.
We use the color-period diagrams for M34 and for younger and older clusters to
estimate the timescale for the transition from the C to the I sequence and find
~<150Myr, ~150-300Myr, and ~300-600Myr for G, early-mid K, and late K dwarfs,
respectively. The small number of stars in the gap between C and I suggest a
quick transition. We estimate a lower limit on the maximum spin-down rate
(dP/dt) during this transition to be ~0.06 days/Myr and ~0.08 days/Myr for
early and late K dwarfs, respectively. We compare the I sequence rotation
periods in M34 and the Hyades for G and K dwarfs and find that K dwarfs spin
down slower than the Skumanich rate. We determine a gyrochronology age of
240Myr for M34. We measure the effect of cluster age uncertainties on the
gyrochronology age for M34 and find the resulting error to be consistent with
the error estimate for the technique. We use the M34 I sequence to redetermine
the coefficients in the expression for rotational dependence on color used in
gyrochronology (abridged).Comment: 47 pages (12pt, preprint), 14 figures, 2 tables, Accepted for
publication in ApJ, format of RA coordinates in Table 2 corrected in latest
versio
Hypothesis Validation of Far-Wall Brightness in Carotid-Artery Ultrasound for Feature-Based IMT Measurement Using a Combination of Level-Set Segmentation and Registration
Intima-media thickness (IMT) is now being considered as an indicator of atherosclerosis. Our group has developed several feature-based IMT measurement algorithms such as the Completely Automated Layer EXtraction (CALEX) (which is a class of patented AtheroEdge Systems from Global Biomedical Technologies, Inc., CA, USA). These methods are based on the hypothesis that the highest pixel intensities are in the far wall of the common carotid artery (CCA) or the internal carotid artery (ICA). In this paper, we verify that this hypothesis holds true for B-mode longitudinal ultrasound (US) images of the carotid wall. This patented methodology consists of generating the composite image (the arithmetic sum of images) from the database by first registering the carotid image frames with respect to a nearly straight carotid-artery frame from the same database using: 1) B-spline-based nonrigid registration and 2) affine registration. Prior to registration, we segment the carotid-artery lumen using a level-set-based algorithm followed by morphological image processing. The binary lumen images are registered, and the transformations are applied to the original grayscale CCA images. We evaluated our technique using a database of 200 common carotid images of normal and pathologic carotids. The composite image presented the highest intensity distribution in the far wall of the CCA/ICA, validating our hypothesis. We have also demonstrated the accuracy and improvement in the IMT segmentation result with our CALEX 3.0 system. The CALEX system, when run on newly acquired US images, shows the IMT error of about 30 mu m. Thus, we have shown that the CALEX algorithm is able to exploit the far-wall brightness for accurate IMT measurements
Data mining framework for fatty liver disease classification in ultrasound: a hybrid feature extraction paradigm
PURPOSE: Fatty liver disease (FLD) is an increasing prevalent disease that can be reversed if detected early. Ultrasound is the safest and ubiquitous method for identifying FLD. Since expert sonographers are required to accurately interpret the liver ultrasound images, lack of the same will result in interobserver variability. For more objective interpretation, high accuracy, and quick second opinions, computer aided diagnostic (CAD) techniques may be exploited. The purpose of this work is to develop one such CAD technique for accurate classification of normal livers and abnormal livers affected by FLD. METHODS: In this paper, the authors present a CAD technique (called Symtosis) that uses a novel combination of significant features based on the texture, wavelet transform, and higher order spectra of the liver ultrasound images in various supervised learning-based classifiers in order to determine parameters that classify normal and FLD-affected abnormal livers. RESULTS: On evaluating the proposed technique on a database of 58 abnormal and 42 normal liver ultrasound images, the authors were able to achieve a high classification accuracy of 93.3% using the decision tree classifier. CONCLUSIONS: This high accuracy added to the completely automated classification procedure makes the authors' proposed technique highly suitable for clinical deployment and usage
Effects of rotation and magnetic fields on the lithium abundance and asteroseismic properties of exoplanet-host stars
Aims: The effects of rotation and magnetic fields on the surface abundances
of solar-type stars are studied in order to investigate whether the reported
difference in lithium content of exoplanet-host stars can be related to their
rotational history. Moreover, the asteroseismic properties predicted for stars
with and without exoplanets are compared to determine how such a scenario,
which relates the lithium abundances and the rotational history of the star,
can be further challenged by observations of solar-like oscillations. Methods:
Based on observations of rotational periods of solar-type stars, slow rotators
on the zero age main sequence (ZAMS) are modelled with a comprehensive
treatment of only the shellular rotation, while fast rotators are modelled
including both shellular rotation and magnetic fields. Assuming a possible link
between low rotation rates on the ZAMS and the presence of planets as a result
of a longer disc-locking phase during the pre-main sequence (PMS), we compare
the surface abundances and asteroseismic properties of slow and fast rotating
models, which correspond to exoplanet-host stars and stars without detected
planets, respectively. Results: We confirm previous suggestions that the
difference in the lithium content of stars with and without detected planets
can be related to their different rotational history. The larger efficiency of
rotational mixing predicted in exoplanet-host stars explains their lithium
depletion and also leads to changes in the structure and chemical composition
of the central stellar layers. Asteroseismic observations can reveal these
changes and can help us distinguish between different possible explanations for
the lower lithium content of exoplanet-host stars.Comment: 4 pages, 4 figures, A&A lette
The Coronal Structure of AB Doradus
We perform a numerical simulation of the corona of the young, rapidly
rotating K0 dwarf AB Doradus using a global MHD model. The model is driven by a
surface map of the radial magnetic field constructed using Zeeman-Doppler
Imaging. We find that the global structure of the stellar corona is dominated
by strong azimuthal tangling of the magnetic field due to the rapid rotation.
The MHD solution enables us to calculate realistic Alfv\'en surfaces and we can
therefore estimate the stellar mass loss rate and angular momentum loss rate
without making undue theoretical simplifications. We consider three cases,
parametrized by the base density of the corona, that span the range of possible
solutions for the system. We find that overall, the mass and angular-momentum
loss rates are higher than in the solar case; the mass loss rates are 10 to 500
times higher, and the angular momentum loss rate can be up to
higher than present day solar values. Our simulations show that this model can
be use to constrain the wide parameter space of stellar systems. It also shows
that an MHD approach can provide more information about the physical system
over the commonly used potential field extrapolation.Comment: 13 pages, 7 figure
The X-ray luminosity of solar-mass stars in the intermediate age open cluster NGC 752
AIMS. While observational evidence shows that most of the decline in a star's
X-ray activity occurs between the age of the Hyades (~8 x 10^8 yrs) and that of
the Sun, very little is known about the evolution of stellar activity between
these ages. To gain information on the typical level of coronal activity at a
star's intermediate age, we studied the X-ray emission from stars in the 1.9
Gyr old open cluster NGC 752. METHODS. We analysed a ~140 ks Chandra
observation of NGC 752 and a ~50 ks XMM-Newton observation of the same cluster.
We detected 262 X-ray sources in the Chandra data and 145 sources in the
XMM-Newton observation. Around 90% of the catalogued cluster members within
Chandra's field-of-view are detected in the X-ray. The X-ray luminosity of all
observed cluster members (28 stars) and of 11 cluster member candidates was
derived. RESULTS. Our data indicate that, at an age of 1.9 Gyr, the typical
X-ray luminosity of the cluster members with M=0.8-1.2 Msun is Lx = 1.3 x 10^28
erg s^-1, so approximately a factor of 6 less intense than that observed in the
younger Hyades. Given that Lx is proportional to the square of a star's
rotational rate, the median Lx of NGC 752 is consistent, for t > 1 Gyr, to a
decaying rate in rotational velocities v_rot ~ t^-alpha with alpha ~ 0.75,
steeper than the Skumanich relation (alpha ~ 0.5) and significantly steeper
than observed between the Pleiades and the Hyades (where alpha < 0.3),
suggesting that a change in the rotational regimes of the stellar interiors is
taking place at t ~ 1 Gyr.Comment: Accepted for publication in A&A (13 pages, 8 figures
Rotational velocities of low-mass stars in the Pleiades and Hyades
We have obtained high-resolution spectra of 89 M dwarf members of the
Pleiades and Hyades and have derived radial velocities, H-alpha equivalent
widths, and spectroscopic rotational velocities for these stars. Typical masses
of the newly-observed Pleiades and Hyades stars are ~ 0.4 M_{\sun} and ~ 0.2
M_{\sun}, respectively. We combine our new observations with previously
published data to explore the rotational evolution of young stars with M < 0.4
M_\sun. The average rotation rate in the Hyades (age 600 Myr) is about 0.4 that
of the Pleiades (110 Myr), and the mean equivalent widths of H-alpha are also
lower. As found in previous studies, the correlation between rotation and
chromospheric activity is identical in both clusters, implying that the lower
activity in the Hyades is a result of the lower rotation rates. We show that a
simple scaling of the Pleiades rotational distribution for M \leq 0.4 M_{\sun},
corrected for the effects of structural evolution, matches that of the Hyades
if the average angular momentum loss from the Pleiades to the Hyades age is
factor of \approx 6. This suggests that the distribution of initial angular
momenta and disk-locking lifetimes for the lowest mass stars was similar in
both clusters. We argue that this result provides further evidence for a
saturation of the angular momentum loss rate at high rotational velocities.Comment: 22 pages, 11 figures, accepted for publication in The Astronomical
Journal, tentatively scheduled for March 200
Simultaneous Multi-Wavelength Observations of Magnetic Activity in Ultracool Dwarfs. III. X-ray, Radio, and H-alpha Activity Trends in M and L Dwarfs
[Abridged] As part of our on-going investigation into the magnetic field
properties of ultracool dwarfs, we present simultaneous radio, X-ray, and
H-alpha observations of three M9.5-L2.5 dwarfs (BRI0021-0214,
LSR060230.4+391059, and 2MASSJ052338.2-140302). We do not detect X-ray or radio
emission from any of the three sources, despite previous detections of radio
emission from BRI0021 and 2M0523-14. Steady and variable H-alpha emission are
detected from 2M0523-14 and BRI0021, respectively, while no H-alpha emission is
detected from LSR0602+39. Overall, our survey of nine M8-L5 dwarfs doubles the
number of ultracool dwarfs observed in X-rays, and triples the number of L
dwarfs, providing in addition the deepest limits to date, log(L_X/L_bol)<-5.
With this larger sample we find the first clear evidence for a substantial
reduction in X-ray activity, by about two orders of magnitude, from mid-M to
mid-L dwarfs. We find that the decline in both X-rays and H-alpha roughly
follows L_{X,Halpha}/L_bol ~ 10^[-0.4x(SP-M6)] for SP>M6. In the radio band,
however, the luminosity remains relatively unchanged from M0 to L4, leading to
a substantial increase in L_rad/L_bol. Our survey also provides the first
comprehensive set of simultaneous radio/X-ray/H-alpha observations of ultracool
dwarfs, and reveals a clear breakdown of the radio/X-ray correlation beyond
spectral type M7, evolving smoothly from L_{\nu,rad}/L_X ~ 10^-15.5 to
~10^-11.5 Hz^-1 over the narrow spectral type range M7-M9. This breakdown
reflects the substantial reduction in X-ray activity beyond M7, but its
physical origin remains unclear since, as evidenced by the uniform radio
emission, there is no drop in the field dissipation and particle acceleration
efficiency.Comment: Submitted to ApJ; 19 pages, 10 figures, 5 table
New rotation periods in the Pleiades: Interpreting activity indicators
We present results of photometric monitoring campaigns of G, K and M dwarfs
in the Pleiades carried out in 1994, 1995 and 1996. We have determined rotation
periods for 18 stars in this cluster. In this paper, we examine the validity of
using observables such as X-ray activity and amplitude of photometric
variations as indicators of angular momentum loss. We report the discovery of
cool, slow rotators with high amplitudes of variation. This contradicts
previous conclusions about the use of amplitudes as an alternate diagnostic of
the saturation of angular momentum loss. We show that the X-ray data can be
used as observational indicators of mass-dependent saturation in the angular
momentum loss proposed on theoretical grounds.Comment: 24 pages, LaTex (AASTeX); includes 8 postscript figures and 4 Latex
tables. To appear in ApJ, Feb. 1, 1998. Postscript version of preprint can be
obtained from http://casa.colorado.edu/~anitak/pubs.htm
Observations of the core of the Pleiades with the Chandra X-ray Observatory
We present results from a 36-ksec observation of the core of the Pleiades
open cluster using ACIS-I on the Chandra X-ray Observatory. We have detected 57
sources, most of which do not have previously known optical counterparts.
Follow-up photometry indicates that many of the detections are likely to be
AGNs, in accordance with extragalactic source counts, but some of the sources
may be previously undiscovered low-mass members of the Pleiades. We discuss our
dataset and our findings about X-ray emission from early-type stars as well as
very late type stars. In particular, the large X-ray fluxes, lack of
variability, and hardness ratios of the four Pleiades B6 IV -- F4 V stars
suggest a tentative conclusion that Pleiades stars in this spectral type range
are intrinsic X-ray sources rather than previously unknown binaries in which
the X-ray emission is from a late-type companion. Also the sensitivity of
Chandra allowed us to detect nonflare X-ray emission from late-M stars.Comment: 25 pages, 7 figures. Accepted for publication in The Astronomical
Journa
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