92,100 research outputs found
Lattice Dynamics of Martensitic Transformations Examined by Atomistic Simulations
We have performaed molecular dynamics simulations of Fe(80)Ni(20) alloys
using an inter-atomic potential of the EAM-type which allows the simulation of
the martensite-austenite transition. We present results, showing the
development of an inhomogeneous shear system on a nanoscale during the
thermally induced austenitic transition. In addition to this we obtained the
phonon dispersion relations of the martensite phase by calculating the
dynamical structure factor from our simulation results. On approaching the
transition temperature the phonon dispersion shows anomalies which might be
connected with the formation of the microstructure during the austenitic
transition.Comment: 7 pages, 4 figures, Contribution submitted to the "IV European
Symposium on Martensitic Transformations" (ESOMAT 97), July 1-5, 1997,
Enschede (The Netherlands
Density, short-range order and the quark-gluon plasma
We study the thermal part of the energy density spatial correlator in the
quark-gluon plasma. We describe its qualitative form at high temperatures. We
then calculate it out to distances approx. 1.5/T in SU(3) gauge theory lattice
simulations for the range of temperatures 0.9<= T/T_c<= 2.2. The
vacuum-subtracted correlator exhibits non-monotonic behavior, and is almost
conformal by 2T_c. Its broad maximum at r approx. 0.6/T suggests a dense medium
with only weak short-range order, similar to a non-relativistic fluid near the
liquid-gas phase transition, where eta/s is minimal.Comment: 4 pages, 4 figure
On the growth of normal faults and the existence of flats and ramps along the El Asnam active fold and thrust system
The combination of detailed topographic leveling on the southwest segment of the El Asnam thrust fault with existing seismic and geologic data implies that the geometry of this fault involves shallow dipping flats and steep ramps. The fault appears to be growing along strike toward the southwest end, where the main shock initiated in 1980. From a depth of about 10 km, the main thrust appears to ramp to the basement-Cenozoic cover interface on a plane striking N40°E and dipping 50°–55° to the northwest. Along the southwest segment where folding has not yet developed, the thrust continues steeply through the Cenozoic cover to the near surface where it flattens, causing normal faulting. Along the central and northeast segments, which display a more evolved fold structure, the deep thrust probably flattens at a depth of 5–6 km, into a decollement along the Cenozoic-Jurassic interface before ramping to the surface. The Sara El Marouf and Kef El Mes anticlines have thus formed as fault propagation folds. Normal faults at Beni Rached probably branch with the thrust to maintain kinematic compatibility between the deep ramp and decollement. The greater separation (∼7 km) between the normal faults at Beni Rached and the thrust where it crosses Oued Cheliff than along the southwest segment (∼1 km) reflects the greater depth of the ramp to flat bend. We infer that the September 9, 1954, earthquake activated only the central deep segment of the main thrust together with the Beni Rached normal faults, while that of October 10, 1980, activated the whole system of flat decollements, ramp thrusts and compatibility normal faults. Further complexities of the faulting in map view are related to changes of strike of the thrust (in particular north of Oued Cheliff)
Interpreting the Cosmic Ray Composition
Detailed composition measurements can be a very powerful means of tracing
origins, a fact used regularly by forensic scientists and art historians. One
of the main motivating factors for making detailed observations of cosmic rays
was always the hope that a unique compositional signature could be found which
pointed unambiguously to a particular source. This has proven much harder than
expected, but we have now reached a point where it appears possible to begin to
decipher the information contained in the compositional data; the key, we have
discovered, is to read the data not in isolation, but in the context provided
by our general astronomical knowledge and by recent developments in shock
acceleration theory (Meyer, Drury and Ellison, 1997, 1998; Ellison, Drury and
Meyer, 1997). In our view (not, it is only fair to warn the reader, yet
universally accepted) the data show clearly that the Galactic cosmic ray
particles originate predominantly from the gas and dust of the general
interstellar medium.Comment: 14 pages, LaTeX 2.09, 4 figure
Examining the Content of Mental Health Intake Assessments From a Biopsychosocial Perspective
Psychotherapists’ approach to intake assessment has a major impact on mental health case conceptualization and treatment. Despite the importance of this issue, very little is known about the actual intake assessment practices of therapists providing mental health care in the community. This appears to be the first study that has investigated which aspects of biological, psychological, and sociocultural functioning are documented by therapists in their client intake assessments, how thoroughly these issues are assessed, and how well the information collected is then integrated into the assessment findings and case conceptualization. The examination of 163 client files from 3 mental health clinics found that therapists were regularly collecting client information regarding a wide range of biopsychosocial issues, though not in a detailed or comprehensive manner. There was also little evidence that the information was being integrated in a manner designed to maximize treatment effectiveness. These findings have major implications for training and practice in mental health assessment
Attachment priming and avoidant personality features as predictors of social-evaluation biases
Personality research has shown that negativity in social situations (e.g., negative evaluations of others) can be reduced by the activation of participants' sense of attachment security. Individuals with avoidant personality disorder (APD), however, are theoretically less responsive to context or situational cues because of the inflexible nature of their personality disposition. This idea of individual differences in context-responsiveness was tested in a sample of 169 undergraduates who were assessed for APD features and assigned to positive, negative, or neutral attachment priming conditions. More pronounced APD features were associated with more negative responses to vignettes describing potentially distressing social situations. A significant interaction showed that participants with more avoidant features consistently appraised the vignettes relatively more negatively, regardless of priming condition. Those without APD features, by contrast, did not exhibit negative appraisals/evaluations unless negatively primed (curvilinear effect). This effect could not be explained by depression, current mood, or attachment insecurity, all of which related to negative evaluative biases, but none of which related to situation inflexibility. These findings provide empirical support for the notion that negative information-processing is unusually inflexible and context-unresponsive among individuals with more pronounced features of APD
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