4,408 research outputs found
Quantization of the elastic modes in an isotropic plate
We quantize the elastic modes in a plate. For this, we find a complete,
orthogonal set of eigenfunctions of the elastic equations and we normalize
them. These are the phonon modes in the plate and their specific forms and
dispersion relations are manifested in low temperature experiments in
ultra-thin membranes.Comment: 14 pages, 2 figure
Selenium-Binding Protein 1 Indicates Myocardial Stress and Risk for Adverse Outcome in Cardiac Surgery
Selenium-binding protein 1 (SELENBP1) is an intracellular protein that has been detected in the circulation in response to myocardial infarction. Hypoxia and cardiac surgery affect selenoprotein expression and selenium (Se) status. For this reason, we decided to analyze circulating SELENBP1 concentrations in patients (n = 75) necessitating cardioplegia and a cardiopulmonary bypass (CPB) during the course of the cardiac surgery. Serum samples were collected at seven time-points spanning the full surgical process. SELENBP1 was quantified by a highly sensitive newly developed immunological assay. Serum concentrations of SELENBP1 increased markedly during the intervention and showed a positive association with the duration of ischemia (ρ = 0.6, p < 0.0001). Elevated serum SELENBP1 concentrations at 1 h after arrival at the intensive care unit (post-surgery) were predictive to identify patients at risk of adverse outcome (death, bradycardia or cerebral ischemia, "endpoint 1"; OR 29.9, CI 3.3-268.8, p = 0.00027). Circulating SELENBP1 during intervention (2 min after reperfusion or 15 min after weaning from the CPB) correlated positively with an established marker of myocardial infarction (CK-MB) measured after the intervention (each with ρ = 0.5, p < 0.0001). We concluded that serum concentrations of SELENBP1 were strongly associated with cardiac arrest and the duration of myocardial ischemia already early during surgery, thereby constituting a novel and promising quantitative marker for myocardial hypoxia, with a high potential to improve diagnostics and prediction in combination with the established clinical parameters
Laser Control of Dissipative Two-Exciton Dynamics in Molecular Aggregates
There are two types of two-photon transitions in molecular aggregates, that
is, non-local excitations of two monomers and local double excitations to some
higher excited intra-monomer electronic state. As a consequence of the
inter-monomer Coulomb interaction these different excitation states are coupled
to each other. Higher excited intra-monomer states are rather short-lived due
to efficient internal conversion of electronic into vibrational energy.
Combining both processes leads to the annihilation of an electronic excitation
state, which is a major loss channel for establishing high excitation densities
in molecular aggregates. Applying theoretical pulse optimization techniques to
a Frenkel exciton model it is shown that the dynamics of two-exciton states in
linear aggregates (dimer to tetramer) can be influenced by ultrafast shaped
laser pulses. In particular, it is studied to what extent the decay of the
two-exciton population by inter-band transitions can be transiently suppressed.
Intra-band dynamics is described by a dissipative hierarchy equation approach,
which takes into account strong exciton-vibrational coupling in the
non-Markovian regime.Comment: revised version, fig. 8 ne
Quark resonances and high E_t jets
Possible spin-3/2 quark resonances would have a significant effect on high
E_{\mbox{\rm t}} jet production through their contribution to the subprocess
. Such enhancements are compared to a, recently
reported, anomaly in inclusive jet production at the CDF detector.Comment: 7 pages set in RevTex with four postscript figures appended- all
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