1,538 research outputs found
Moral anger, but not moral disgust, responds to intentionality
We propose that, when people judge moral situations, anger responds to the contextual cues of harm and intentionality. On the other hand, disgust responds uniquely to whether or not a bodily norm violation has occurred; its apparent response to harm and intent is entirely explained by the co-activation of anger. We manipulated intent, harm, and bodily norm violation (eating human flesh) within a vignette describing a scientific experiment. Participants then rated their anger, disgust, and moral judgment, as well as various appraisals. Anger responded independently of disgust to harm and intentionality, while disgust responded independently of anger only to whether or not the act violated the bodily norm of cannibalism. Theoretically relevant appraisals accounted for the effects of harm and intent on anger; however, appraisals of abnormality did not fully account for the effects of the manipulations on disgust. Our results show that anger and disgust are separately elicited by different cues in a moral situation
Non-noble electrocatalysts for alkaline fuel cells
The doping of solid phase precursors followed by pyrolysis or the copyrolysis of gas phase precursors has allowed us to produce catalysts with good activity toward oxygen reduction. Efforts are currently underway to better understand the reasons for the catalytic activity of the bulk doped catalysts with a view toward further improving their activity
Electron-phonon interaction in quantum-dot/quantum-well semiconductor heterostructures
Polar optical phonons are studied in the framework of the dielectric
continuum approach for a prototypical quantum-dot/quantum-well (QD/QW)
heterostructure, including the derivation of the electron-phonon interaction
Hamiltonian and a discussion of the effects of this interaction on the
electronic energy levels. The particular example of the CdS/HgS QD/QW is
addressed and the system is modelled according to the spherical geometry,
considering a core sphere of material "1" surrounded by a spherically
concentric layer of material "2", while the whole structure is embedded in a
host matrix assumed as an infinite dielectric medium. The strength of the
electron-LO phonon coupling is discussed in details and the polaronic
corrections to both ground state and excited state electron energy levels are
calculated. Interesting results concerning the dependence of polaronic
corrections with the QD/QW structure size are analyzed.Comment: 8 pages, 5 figure
A Jeziorski-Monkhorst fully uncontracted Multi-Reference perturbative treatment I: principles, second-order versions and tests on ground state potential energy curves
The present paper introduces a new multi-reference perturbation approach
developed at second order, based on a Jeziorsky-Mokhorst expansion using
individual Slater determinants as perturbers. Thanks to this choice of
perturbers, an effective Hamiltonian may be built, allowing for the dressing of
the Hamiltonian matrix within the reference space, assumed here to be a CAS-CI.
Such a formulation accounts then for the coupling between the static and
dynamic correlation effects. With our new definition of zeroth-order energies,
these two approaches are strictly size-extensive provided that local orbitals
are used, as numerically illustrated here and formally demonstrated in the
appendix. Also, the present formalism allows for the factorization of all
double excitation operators, just as in internally contracted approaches,
strongly reducing the computational cost of these two approaches with respect
to other determinant-based perturbation theories. The accuracy of these methods
has been investigated on ground-state potential curves up to full dissociation
limits for a set of six molecules involving single, double and triple bond
breaking. The spectroscopic constants obtained with the present methods are
found to be in very good agreement with the full configuration interaction
(FCI) results. As the present formalism does not use any parameter or
numerically unstable operation, the curves obtained with the two methods are
smooth all along the dissociation path.Comment: 4 figures, 18 page
The phase sensitivity of a fully quantum three-mode nonlinear interferometer
We study a nonlinear interferometer consisting of two consecutive parametric
amplifiers, where all three optical fields (pump, signal and idler) are treated
quantum mechanically, allowing for pump depletion and other quantum phenomena.
The interaction of all three fields in the final amplifier leads to an
interference pattern from which we extract the phase uncertainty. We find that
the phase uncertainty oscillates around a saturation level that decreases as
the mean number of input pump photons increases. For optimal interaction
strengths, we also find a phase uncertainty below the shot-noise level and
obtain a Heisenberg scaling . This is in contrast to the conventional
treatment within the parametric approximation, where the Heisenberg scaling is
observed as a function of the number of down-converted photons inside the
interferometer.Comment: 8 pages, 7 figure
HBIM FROM A FIRST CENTURY ICONOGRAPHY
Abstract. Protecting and enhancing inherited assets is a duty of every age; ours requires disclosure through the services of the interconnected network, the only one, to date, capable of reaching a wide audience and with it attracting adequate economic resources for the implementation of programs. In keeping with the international definition of "Cultural Heritage", the paper describes the methodology that guided the construction in 3D of the monumental building sculpted in the iconographies between 52 and 62 AD on the marble slab now preserved at the archaeological museum of Perugia. An informative workflow on what has been collected is proposed to then discuss the potential of its uses. The focus lies in particular on the possibility of the model to act as an interoperable collector to compare the reconstructive hypotheses.The final objective looks at the opportunity to create multimedia, multimodal and cross modal collaboration spaces to remedy aspects that, by affecting a wider audience of users, encourage socio-economic policies
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