Calculation of atmospheric neutrino flux using the interaction model calibrated with atmospheric muon data

Using the ``modified DPMJET-III'' model explained in the previous paper, we calculate the atmospheric neutrino flux. The calculation scheme is almost the same as HKKM04 \cite{HKKM2004}, but the usage of the ``virtual detector'' is improved to reduce the error due to it. Then we study the uncertainty of the calculated atmospheric neutrino flux summarizing the uncertainties of individual components of the simulation. The uncertainty of $K$-production in the interaction model is estimated by modifying FLUKA'97 and Fritiof 7.02 so that they also reproduce the atmospheric muon flux data correctly, and the calculation of the atmospheric neutrino flux with those modified interaction models. The uncertainties of the flux ratio and zenith angle dependence of the atmospheric neutrino flux are also studied

The Significance of the Adrenal Medullary Epinephrin in the Analgesic Effects of Morphine and a Few Other Drugs in Mice

The analgesic effects of morphine and some related compounds, such as meperidine, observed by the conventional method, are supplemented by the release of epinephrine from the adrenal medulla. It is assumed that this action of epinephrine is not due to an additive synergy in the analgesic effect but to the face that the action of epinephrine on a definite higher center or centers effects synergistically in the reflex depressant action of these analgesic agants. This assumption is based on the following evidences. Prolongation of reaction time in mice by morphine and meperidine (but not by ohton), determined by the hot-plate method, was significantly reduced by adrenalectomy and this reduction was normalized by the concurrent use of epinephrine, in a small dose which in itself cannot prolong the reaction time. No such action was found in cortisone and DOCA. The effects of morphine and meperidine in prolonging the reaction time were reduced by priscol and dibenamine, as well as by tetraethylammonium salt. A large dose of pyrazolone derivatives causes, not the prolongation of reaction time but a jumping reflex response in the early stages, indicating central excitation, in part of the mice. The ratio of mice exhibiting such an early reflex increases with adrenalectomy or the administration of dibenamine, and is markedly decreased by epinephrine, insufficient to show any analgesic response by itself, and by cortisone. This action of cortisone indicates some difference in the natures of central excitation by pyrazolones and by morphine. Judging from the work of SCHAYER18, the distribution in the brain of epinephrine injected in the dose to normalize the reduced effect of morphine in the adrenalectomized mice, may also be anticipated by the epinephrine which might be released from the adrenal medulla by morphine in an amount much smaller than the &#34;near·lethal doses9 &#34;.</p

A Simplified Hot-Plate Apparatus for Evaluation of Analgesic Effect

1. A. simple hot-plate apparatus, with comparatively good accuracy in the control of temperature, chiefly composed of a circular lead plate embedded with nicrome-wire heater was devised in order to improve the complications and inconveniences of the hot-plate apparatus used to date in algesimetric determination with mice. 2. The reaction times measured with this hot-plate maintained at 55°C with 500 normal mice showed an average of 9.96 &#177; 1.58 seconds and about 90% of the total mice exhibited reaction time of 7-13 seconds. With animals showing reaction time within this range, the daily mean reaction time did not vary with measurement once a day for consecutive days and the effect of drugs with comparatively weak analgesic effect was well reproduced with small number examples, such as 12 mice to a group.</p

Effect of Magnetic Axis Shift on Neoclassical Transport in Helical Torus

Neoclassical transport for large helical device (LHD) configurations is studied by solving the bounce-averaged Fokker-Planck equation. Numerical code employed in the present paper (CHD1) is much faster and more efficient than existing transport codes. Effects of the magnetic axis shift on the mono-energetic transport coefficients are studied in detail for the LHD configurations, revealing that a strong inward shift of the magnetic axis can reduce remarkably the neoclassical ripple transport