Signatures of asymmetry in neutron spectra and images predicted by three-dimensional radiation hydrodynamics simulations of indirect drive implosions. The results are post-processed using a semi-deterministic ray tracing model to generate synthetic deuterium-tritium DT and deuterium-deuterium DD neutron spectra as well as primary and down scattered neutron images.
Results with low-mode asymmetries are used to estimate the magnitude of anisotropy in the neutron spectra shift, width, and shape. Further calculations use high bandwidth multi-mode perturbations to induce multiple short scale length flows in the hotspot. The results indicate that the effect of fluid velocity is to produce a DT neutron spectrum with an apparently higher temperature than that inferred from the DD spectrum and which is also higher than the temperature implied by the DT to DD yield ratio.
Mode 1 drive asymmetry in inertial confinement fusion implosions on the National Ignition Facility. Mode 1 radiation drive asymmetry pole-to-pole imbalance at significant levels can have a large impact on inertial confinement fusion implosions at the National Ignition Facility NIF. This asymmetry distorts the cold confining shell and drives a high-speed jet through the hot spot.
The perturbed hot spot shows increased residual kinetic energy and reduced internal energy, and it achieves reduced pressure and neutron yield. The altered implosion physics manifests itself in observable diagnostic signatures, especially the neutron spectrum which can be used to measure the Chopo escobar homosexual discrimination flow velocity, apparent ion temperature, and neutron downscattering. Numerical simulations of implosions with mode 1 asymmetry show that the resultant simulated diagnostic signatures are moved toward the values observed in many NIF experiments.
The diagnostic output can also be used to build a set of integrated implosion performance metrics. The metrics indicate that P 1 has a significant impact on implosion performance and must be carefully controlled in NIF implosions.
Motive attribution asymmetry for love vs. Five studies across cultures involving American Democrats and Republicans, Israelis, and 1, Palestinians provide previously unidentified evidence of a fundamental bias, what we term the "motive attribution asymmetry ," driving seemingly intractable human conflict.
These studies show that in political and ethnoreligious intergroup conflict, adversaries tend to attribute their own group's aggression to ingroup love more than outgroup hate and to attribute Chopo escobar homosexual discrimination outgroup's aggression to outgroup hate more than ingroup love.
Study 1 demonstrates that American Democrats and Republicans attribute their own party's involvement in conflict to ingroup love more than outgroup hate but attribute the opposing party's involvement to outgroup hate more than ingroup love. Studies 2 and 3 demonstrate this biased attributional pattern for Israelis and Palestinians evaluating their own group and the Chopo escobar homosexual discrimination group's involvement in the current regional conflict.
Study 4 demonstrates in an Israeli population that this bias increases beliefs and intentions associated with conflict intractability toward Palestinians. Finally, study 5 demonstrates, in the context of American political conflict, that offering Democrats and Republicans financial incentives for accuracy in evaluating the opposing party can mitigate this bias and its consequences.
Although people find it difficult to explain their adversaries' actions in terms of love and affiliation, we suggest that recognizing this attributional bias and how to reduce it can contribute to reducing human conflict on a global scale. Asymmetric-shell ignition capsule design to tune the low-mode asymmetry during the peak drive.
The low-mode radiation asymmetry in the hohlraum is a main source of performance degradation in the National Ignition Facility NIF implosion experiments. To counteract the deleterious effects of the large positive P2 flux asymmetry during the peak drivethis paper develops a new tuning method called asymmetric-shell ignition capsule design which adopts the intentionally asymmetric CH ablator layer or deuterium-tritium DT ice layer.
Theorem for the photon asymmetry in radiative muon capture. Radiation drive "Chopo escobar homosexual discrimination" laser heated hohlraums. Nearly 10 years of Nova experiments and analysis have lead to a relatively detailed quantitative and qualitative "Chopo escobar homosexual discrimination" of radiation drive in laser heated hohlraums. Our most successful quantitative modelling tool is 2D Lasnex numerical simulations. Analysis of the simulations provides us with insight into the details of the hohlraum drive.
In particular we find hohlraum radiation conversion efficiency becomes quite high with longer pulses as the accumulated, high Z blow-off plasma begins to radiate. Extensive Nova experiments corroborate our quantitative and qualitative understanding. Photon asymmetry from radiative muon capture on 40Ca.
From the asymmetry measurement, the value of the pseudoscalar coupling constant, g pcan be obtained. A total of clean photon events were collected.