5,780 research outputs found
The Impact of New Polarization Data from Bonn, Mainz and Jefferson Laboratory on Multipoles
New data on pion-photoproduction off the proton have been included in the
partial wave analyses Bonn-Gatchina and SAID and in the dynamical
coupled-channel approach J\"ulich-Bonn. All reproduce the recent new data well:
the double polarization data for E, G, H, P and T in
from ELSA, the beam asymmetry for and
from Jefferson Laboratory, and the precise new differential cross section and
beam asymmetry data for from MAMI. The new fit
results for the multipoles are compared with predictions not taking into
account the new data. The mutual agreement is improved considerably but still
far from being perfect
Three-Dimensional Ab Initio Quantum Dynamics of the Photodesorption of CO from Cr<sub>2</sub>O<sub>3</sub>(0001): Stereodynamic Effects
Having performed the first three-dimensional ab initio quantum dynamical study of photodesorption from solid surfaces, we gained mechanistic understanding of the rotational alignment observed in the CO/Cr2O3(0001) system. Our study is based on potential energy surfaces obtained by embedded cluster calculations for both the electronic ground and excited state of the adsorbate substrate complex. Stochastic wave packet calculations demonstrate the importance of the angular degrees of freedom for the microscopic picture of the desorption process in addition to the desorption coordinate
Accurate prediction of H<sub>3</sub>O<sup>+</sup> and D<sub>3</sub>O<sup>+</sup> sensitivity coefficients to probe a variable proton-to-electron mass ratio
The mass sensitivity of the vibration–rotation–inversion transitions of H316O+, H318O+, and D316O+ is investigated variationally using the nuclear motion program TROVE (Yurchenko, Thiel & Jensen). The calculations utilize new high-level ab initio potential energy and dipole moment surfaces. Along with the mass dependence, frequency data and Einstein A coefficients are computed for all transitions probed. Particular attention is paid to the Δ|k| = 3 and Δ|k − l| = 3 transitions comprising the accidentally coinciding |J, K = 0, v2 = 0+〉 and |J, K = 3, v2 = 0−〉 rotation–inversion energy levels. The newly computed probes exhibit sensitivities comparable to their ammonia and methanol counterparts, thus demonstrating their potential for testing the cosmological stability of the proton-to-electron mass ratio. The theoretical TROVE results are in close agreement with sensitivities obtained using the non-rigid and rigid inverter approximate models, confirming that the ab initio theory used in the present study is adequate
The effect of common gases on nucleation of metal islands: The role of oxygen in Ag(100) homoepitaxy
Preexposure to molecular oxygen gas, O2,g , can have a strong effect on the nucleation and growth of Ag islands on Ag(100) at 250 K. At this temperature, molecular oxygen dissociates efficiently at kink sites on steps. Subsequent deposition of Ag produces a far lower density of Agad islands than without oxygen. There is an associated increase in the Ag flux-scaling exponent, from 0.28 for the oxygen-free surface to 0.9 for the preexposed surface. Two-step deposition experiments show that species containing atomic oxygen diffuse freely across terraces and steps at this temperature and on the time scale of deposition.We hypothesize that the nucleating species contains both Ag and O, and that nucleation of islands is highly reversible ~critical size i\u3e\u3e1). The diffusion of small islands, if it occurs, is not sufficient to explain the data
Frequent induction of chromosomal aberrations in in vivo skin fibroblasts after allogeneic stem cell transplantation: hints to chromosomal instability after irradiation
BACKGROUND: Total body irradiation (TBI) has been part of standard conditioning regimens before allogeneic stem cell transplantation for many years. Its effect on normal tissue in these patients has not been studied extensively. METHOD: We studied the in vivo cytogenetic effects of TBI and high-dose chemotherapy on skin fibroblasts from 35 allogeneic stem cell transplantation (SCT) patients. Biopsies were obtained prospectively (n = 18 patients) before, 3 and 12 months after allogeneic SCT and retrospectively (n = 17 patients) 23-65 months after SCT for G-banded chromosome analysis. RESULTS: Chromosomal aberrations were detected in 2/18 patients (11 %) before allogeneic SCT, in 12/13 patients (92 %) after 3 months, in all patients after 12 months and in all patients in the retrospective group after allogeneic SCT. The percentage of aberrant cells was significantly higher at all times after allogeneic SCT compared to baseline analysis. Reciprocal translocations were the most common aberrations, but all other types of stable, structural chromosomal aberrations were also observed. Clonal aberrations were observed, but only in three cases they were detected in independently cultured flasks. A tendency to non-random clustering throughout the genome was observed. The percentage of aberrant cells was not different between patients with and without secondary malignancies in this study group. CONCLUSION: High-dose chemotherapy and TBI leads to severe chromosomal damage in skin fibroblasts of patients after SCT. Our long-term data suggest that this damage increases with time, possibly due to in vivo radiation-induced chromosomal instability
Rhodobacter johrii sp. nov., an endospore-producing cryptic species isolated from semi-arid tropical soils
An oval to rod shaped phototrophic purple nonsulfur bacterium, strain JA192T was isolated from an enrichment culture of a pasteurized rhizosphere soil sample of jowar crop collected from Godumakunta village, near Hyderabad, India. Strain JA192T is Gram-negative, motile and produces endospores. Phylogenetic analysis on the basis of 16S rRNA gene sequences showed that the strain JA192T is closely related to Rhodobacter sphaeroides DSM 158T (99.9% sequence similarity), Rhodobacter megalophilus JA194T (99.8%) and Rhodobacter azotoformans JCM 9340T (98.1%) and clusters with other species of the genus Rhodobacter of the family Rhodobacteraceae. However, DNA-DNA hybridization with Rba. sphaeroides DSM 158T, Rba. megalophilus JA194T and Rba. azotoformans JCM 9320T showed a relatedness of only 38-57% with respect to JA192T. On the basis of 16S rRNA gene sequence analysis, DNA-DNA hybridization data, morphological, physiological and chemotaxanomic characters, strain JA192T represents a novel species of the genus Rhodobacter, for which the name Rhodobacter johrii sp. nov. is proposed. The type strain is JA192T (= DSM 18678T = JCM 14543T = MTCC 8172T)
hints to chromosomal instability after irradiation
Background Total body irradiation (TBI) has been part of standard conditioning
regimens before allogeneic stem cell transplantation for many years. Its
effect on normal tissue in these patients has not been studied extensively.
Method We studied the in vivo cytogenetic effects of TBI and high-dose
chemotherapy on skin fibroblasts from 35 allogeneic stem cell transplantation
(SCT) patients. Biopsies were obtained prospectively (n = 18 patients) before,
3 and 12 months after allogeneic SCT and retrospectively (n = 17 patients)
23–65 months after SCT for G-banded chromosome analysis. Results Chromosomal
aberrations were detected in 2/18 patients (11 %) before allogeneic SCT, in
12/13 patients (92 %) after 3 months, in all patients after 12 months and in
all patients in the retrospective group after allogeneic SCT. The percentage
of aberrant cells was significantly higher at all times after allogeneic SCT
compared to baseline analysis. Reciprocal translocations were the most common
aberrations, but all other types of stable, structural chromosomal aberrations
were also observed. Clonal aberrations were observed, but only in three cases
they were detected in independently cultured flasks. A tendency to non-random
clustering throughout the genome was observed. The percentage of aberrant
cells was not different between patients with and without secondary
malignancies in this study group. Conclusion High-dose chemotherapy and TBI
leads to severe chromosomal damage in skin fibroblasts of patients after SCT.
Our long-term data suggest that this damage increases with time, possibly due
to in vivo radiation-induced chromosomal instability
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