Tame and wild theorem for the category of filtered by standard modules for a quasi-hereditary algebra

We introduce the notion of interlaced weak ditalgebras and apply reduction procedures to their module categories to prove the tame-wild dichotomy for the category ${\cal F}(\Delta)$ of filtered by standard modules for a quasi-hereditary algebra. Moreover, in the tame case, we show that given a fixed dimension $d$, for every $d$-dimensional indecomposable module $M \in {\cal F}(\Delta)$, with the only possible exception of those lying in a finite number of isomorphism classes, the module $M$ coincides with its Auslander-Reiten translate in ${\cal F}(\Delta)$. Our results are based on a theorem by Koenig, K\"ulshammer, and Ovsienko relating ${\cal F}(\Delta)$ with the module category of some special type of ditalgebra.Comment: 51 page

Electron-Ion Recombination Rate Coefficients and Photoionization Cross Sections for Astrophysically Abundant Elements VI. Ni II

We present the first detailed ab initio quantum mechanical calculations for total and state-specific recombination rate coefficients for e + Ni III --> Ni II. These rates are obtained using a unified treatment for total electron-ion recombination that treats the nonresonant radiative recombination and the resonant dielectronic recombination in a self-consistent unified manner in the close coupling approximation. Large-scale calculations are carried out using a 49-state wavefunction expansion from core configurations 3d^8, 3d^74s, and 3d^64p that permits the inclusion of prominent dipole allowed core transitions. These extensive calculations for the recombination rates of Ni II required hundreds of CPU hours on the Cray T90. The total recombination rate coefficients are provided for a wide range of temperature. The state-specific recombination rates for 532 bound states of doublet and quartet symmetries, and the corresponding photoionization cross sections for leaving the core in the ground state, are presented. Present total recombination rate coefficients differ considerably from the currently used data in astrophysical models.Comment: ApJ Suppl. (submitted), 4 figure

The Role of Late Antigen in CD4 Memory T Cell Formation during Influena [i.e. Influenza] Infection: A Dissertation

While memory CD4 T cells are critical for effective immunity to pathogens, the mechanisms underlying their generation are poorly defined. Although extensive work has been done to examine the role of antigen (Ag) in shaping memory formation, most studies focus on the requirements during the first few days of the response known as the priming phase. Little is known about whether or not Ag re-encounter by effector T cells (late Ag) alters CD4 memory T cell formation. Since influenza infection produces a large, heterogeneous, protective CD4 memory T cell population, I used this model to examine the role of late Ag in promoting CD4 memory T cell formation. In the experiments presented in this thesis, I demonstrate that late Ag is required to rescue responding CD4 T cells from default apoptosis and to program the transition to long-lived memory. Responding cells that failed to re-encounter Ag had decreased memory marker expression and failed to produce multiple cytokines upon re-stimulation. Ag recognition is required at a defined stage, as short-term Ag presentation provided 6 days after infection is able to restore canonical memory formation even in the absence of viral infection. Finally, I find that memory CD4 T cell formation following cold-adapted influenza vaccination is boosted when Ag is administered at this stage. These findings imply that persistence of viral Ag presentation into the effector phase is the key factor that determines the efficiency of memory generation. They also suggest that administering Ag during the effector stage may improve vaccine efficacy

Building Character by Building Characters: A Literature Review Examining the Efficacy of Tabletop Roleplay as a Creative Intervention for Developing Social Skills in Adolescents

In the realm of tabletop roleplay games, Dungeons & Dragons (D&D) earned a reputation as the most prolific franchise within the genre and has since prevailed as a popular bonding activity for peer groups of all ages and backgrounds. Among the player base in the D&D community are those that gleaned its potential to offer a conducive space for personal growth, particularly in the realm of psychosocial development, given that D&D sessions facilitated dynamic social interactions among the members. The emphasis on imagination in D&D nurtures the tenets of intermodal expression, as players are encouraged to explore their creativity through the embodiment of their character in addition to engaging in the fictional play-space, which appeals to such concepts in expressive arts therapy as in expanding the range of play by decentering into an alternative reality or alternative world experience. This literature review desired to address the gap in literature analyzing D&D as a creative tool for social skills development, especially for adolescents who are in the process of cultivating their unique personalities. Recommendations for utilizing this method in a therapeutic setting were provided in addition to a fully conceptualized outline for a ten-week group curriculum which may act as a springboard for inspiring future endeavors in incorporating D&D roleplay with the selected population

Discernment of Spirits in the Bible

In English, “to discern” basically means “to detect something that is obscure or concealed.” It also means “to perceive or recognize as being different or distinct; distinguish.” Hence, in ordinary usage, “discernment” has to do with “keenness of insight and judgment.

Atomic Processes in Planetary Nebulae and H II Regions

Spectroscopic studies of Planetary Nebulae (PNe) and H {\sc ii} regions have driven much development in atomic physics. In the last few years the combination of a generation of powerful observatories, the development of ever more sophisticated spectral modeling codes, and large efforts on mass production of high quality atomic data have led to important progress in our understanding of the atomic spectra of such astronomical objects. In this paper I review such progress, including evaluations of atomic data by comparisons with nebular spectra, detection of spectral lines from most iron-peak elements and n-capture elements, observations of hyperfine emission lines and analysis of isotopic abundances, fluorescent processes, and new techniques for diagnosing physical conditions based on recombination spectra. The review is directed toward atomic physicists and spectroscopists trying to establish the current status of the atomic data and models and to know the main standing issues.Comment: 9 pages, 1 figur

NMR spectroscopy and antioxidant activity of flavanones and flavones isolated from Chromolaena tacotana (Klatt) R.M. King & H. Rob.

Chromolaena tacotana is considered as a source of flavonoids. Here we examined the content and antioxidant properties of flavones and flavanones from the leaves of the plant. Four flavonoids, including (Cta) 5, 4' dihydroxy-7-methoxy flavanone, (Ctb) 3,5,3'-trihydroxy-7,4'-dimethoxyflavone; (Ctc), 3,4'-dihydroxy -5,7-dimethoxyflavanone; and (Ctd) 4'-hydroxy-5,7-dimethoxyflavanone, were isolated from leaves extracts, were identified by their NMR spectroscopic data, and then free radical scavenging activities of the flavonoids were assessed against DPPH. The antioxidant activity for the flavanone Ctb was the highest even compared to that of quercetin, with IC50 of 6.27 μg/mL and 8.67 μg/mL respectively. The flavanones Cta, Ctc and Ctd presented a lowest activity against free radicals as expected according to their molecular substituents and the position within the structure. Data obtained from this study support the ethnomedicinal use of the leaves of C. tacotana for an antioxidant purpose

ANEC on stress-tensor states in perturbative λ φ4 theory

We evaluate the Average Null Energy Condition (ANEC) on momentum eigenstatesgenerated by the stress tensor in perturbative $\lambda \, \phi^4$ and generalspacetime dimension. We first compute the norm of the stress-tensor state atsecond order in $\lambda$; as a by-product of the derivation we obtain the fullexpression for the stress tensor 2-point function at this order. We thencompute the ANEC expectation value to first order in $\lambda$, which alsodepends on the coupling of the stress-tensor improvement term $\xi$. We studythe bounds on these couplings that follow from the ANEC and unitarity at firstorder in perturbation theory. These bounds are stronger than unitarity in someregions of coupling space.<br