185 research outputs found
Path Integral Monte Carlo study of phonons in the bcc phase of He
Using Path Integral Monte Carlo and the Maximum Entropy method, we calculate
the dynamic structure factor of solid He in the bcc phase at a finite
temperature of T = 1.6 K and a molar volume of 21 cm. Both the
single-phonon contribution to the dynamic structure factor and the total
dynamic structure factor are evaluated. From the dynamic structure factor, we
obtain the phonon dispersion relations along the main crystalline directions,
[001], [011] and [111]. We calculate both the longitudinal and transverse
phonon branches. For the latter, no previous simulations exist. We discuss the
differences between dispersion relations resulting from the single-phonon part
vs. the total dynamic structure factor. In addition, we evaluate the formation
energy of a vacancy.Comment: 10 figure
Spin-driven Phonon Splitting in Bond-frustrated ZnCr2S4
Utilizing magnetic susceptibility, specific heat, thermal expansion and IR
spectroscopy we provide experimental evidence that the two subsequent
antiferromagnetic transitions in ZnCr_2S_4 at T_N1 = 15 K and T_N2= 8 K are
accompanied by significant thermal and phonon anomalies. The anomaly at T_N2
reveals a strong temperature hysteresis typical for a first-order
transformation. Due to strong spin-phonon coupling both magnetic phase
transitions induce a splitting of phonon modes, where at T_N1 the
high-frequency and at T_N2 the low-frequency modes split. The anomalies and
phonon splitting observed at T_N2 are strongly suppressed by magnetic field.
Regarding the small positive Curie-Weiss temperature Theta= 8 K, we argue that
this scenario of two different magnetic phases with concomitant different
magneto-elastic couplings results from the strong competition of ferromagnetic
and antiferromagnetic exchange of equal strength.Comment: 4 pages, 4 figure
Far-infrared optical properties of the pyrochlore spin ice compound Dy2Ti2O4
Near normal incident far-infrared reflectivity spectra of [111] dysprosium
titanate (Dy2Ti2O4) single crystal have been measured at different
temperatures. Seven phonon modes (eight at low temperature) are identified at
frequency below 1000 cm-1. Optical conductivity spectra are obtained by fitting
all the reflectivity spectra with the factorized form of the dielectric
function. Both the Born effective charges and the static optical primitivity
are found to increase with decreasing temperature. Moreover, phonon linewidth
narrowering and phonon modes shift with decreasing temperature are also
observed, which may result from enhanced charge localization. The redshift of
several low frequency modes is attributed to the spin-phonon coupling. All
observed optical properties can be explained within the framework of nearest
neighbor ferromagnetic(FM) spin ice model
The eyes and optic paths of the catfish, ameiurus
No Abstract.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/49927/1/900750206_ftp.pd
Giant impacts in the Saturnian System: a possible origin of diversity in the inner mid-sized satellites
It is widely accepted that Titan and the mid-sized regular satellites around
Saturn were formed in the circum-Saturn disk. Thus, if these mid-sized
satellites were simply accreted by collisions of similar ice-rock
satellitesimals in the disk, the observed wide diversity in density (i.e., the
rock fraction) of the Saturnian mid-sized satellites is enigmatic. A recent
circumplanetary disk model suggests satellite growth in an actively supplied
circumplanetary disk, in which Titan-sized satellites migrate inward by
interaction with the gas and are eventually lost to the gas planet. Here we
report numerical simulations of giant impacts between Titan-sized migrating
satellites and smaller satellites in the inner region of the Saturnian disk.
Our results suggest that in a giant impact with impact velocity > 1.4 times the
escape velocity and impact angle of ~45 degree, a smaller satellite is
destroyed, forming multiple mid-sized satellites with a very wide diversity in
satellite density (the rock fraction = 0-92 wt%). Our results of the
relationship between the mass and rock fraction of the satellites resulting
from giant impacts reproduce the observations of the Saturnian mid-sized
satellites. Giant impacts also lead to internal melting of the formed mid-sized
satellites, which would initiate strong tidal dissipation and geological
activity, such as those observed on Enceladus today and Tethys in the past. Our
findings also imply that giant impacts might have affected the fundamental
physical property of the Saturnian mid-sized satellites as well as those of the
terrestrial planets in the solar system and beyond.Comment: 18 pages, 3 figures, Planetary and Space Science, in pres
Polarization and Strong Infra-Red Activity in Compressed Solid Hydrogen
Under a pressure of ~150 GPa solid molecular hydrogen undergoes a phase
transition accompanied by a dramatic rise in infra-red absorption in the vibron
frequency range. We use the Berry's phase approach to calculate the electric
polarization in several candidate structures finding large, anisotropic dynamic
charges and strongly IR-active vibron modes. The polarization is shown to be
greatly affected by the overlap between the molecules in the crystal, so that
the commonly used Clausius-Mossotti description in terms of polarizable,
non-overlapping molecular charge densities is inadequate already at low
pressures and even more so for the compressed solid.Comment: To appear in Phys. Rev. Let
Assessment of Yellow Fever Epidemic Risk: An Original Multi-criteria Modeling Approach
This article describes the use of an original modeling approach to assess the risk of yellow fever (YF) epidemics. YF is a viral hemorrhagic fever responsible in past centuries for devastating outbreaks. Since the 1930s, a vaccine has been available that protects the individual for at least 10 years, if not for life. However, immunization of populations in African countries was gradually discontinued after the 1960s. With the decrease in immunity against YF in African populations the disease reemerged in the 1980s. In 2005, WHO, UNICEF, and the GAVI Alliance decided to support preventive vaccination of at-risk populations in West African endemic countries in order to tackle the reemergence of YF and reduce the risk of urban YF outbreaks. Financial resources were made available to scale up a global YF vaccine stockpile and to support countries with limited resources in the management of preventive vaccination campaigns. This article describes the process we used to determine the most at-risk populations using a mathematical model to prioritize targeted immunization campaigns. We believe that this approach could be useful for other diseases for which decision making process is difficult because of limited data availability, complex risk variables, and a need for rapid decisions and implementation
A Biological and Procedural Review of Forensically Significant Dermestes Species (Coleoptera: Dermestidae)
The analyses of the insect species found on decomposing remains may provide useful information for the estimation of the minimum time elapsed since death and other parameters, such as causes and circumstances of death. The majority of research has focused on the early colonizing species, typically blowflies, while research concerning late colonizing insects is currently sparse. Dermestid beetles of the genus Dermestes L. (Coleoptera: Dermestidae) are one of the predominant insect species associated with decomposing remains during dry decay and skeletal stages of decomposition. In some dry environments, Dermestes species are likely to be the only necrophagous insects feeding on the decomposing remains. Furthermore, Dermestes species (immature and adults), their remains (cast skins and fecal material), and their artifacts (pupal chambers) are frequently found associated with ancient remains (e.g., mummies, fossils). Dermestes species have a worldwide distribution and are considered important in decomposition processes, forensic investigations, and economically as a known pest of stored products. Despite their recognized forensic importance, there is limited data documenting the ecology, biology, and the growth rates of the forensically relevant species. The aim of this review is to provide a comprehensive synopsis on the available literature concerning Dermestes species associated with forensic cases. In particular, aspects of colonization behavior, growth rates for forensic taxa and potential best practice guidelines for forensic casework encompassing late colonizing Dermestes species are discussed
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