Results 191 to 200 of about 8,968 (231)
Some of the next articles are maybe not open access.
Nuclear Physics, 1963
Abstract Differential cross-sections and proton-gamma-ray angular correlation functions in the reaction plane at six different proton angles, have been measured for the O 16 (t, pγ) O 18 reaction through the first excited state (1.98 MeV) of O 18 , using tritons of energy 5 MeV.
F.H. Read, J.M. Calvert
openaire +1 more source
Abstract Differential cross-sections and proton-gamma-ray angular correlation functions in the reaction plane at six different proton angles, have been measured for the O 16 (t, pγ) O 18 reaction through the first excited state (1.98 MeV) of O 18 , using tritons of energy 5 MeV.
F.H. Read, J.M. Calvert
openaire +1 more source
Nuclear Physics, 1962
Abstract 1) Some general characteristics of the particle-hole energy are discussed by using a simple model. 2) Energy levels of the 0+ excited states due to the excitation of a single nucleon are estimated for O16 and Ca40 using the Rosenfeld force.
R. Berenbaum, M. Umezawa
openaire +1 more source
Abstract 1) Some general characteristics of the particle-hole energy are discussed by using a simple model. 2) Energy levels of the 0+ excited states due to the excitation of a single nucleon are estimated for O16 and Ca40 using the Rosenfeld force.
R. Berenbaum, M. Umezawa
openaire +1 more source
Photoexcitation of M1 and E2 levels in O16
Nuclear Physics, 1965Abstract The 1+ and 2+ states in O16 have been studied using the particle-hole model, in an attempt to understand better the structure in the giant resonance region. A plausible unperturbed spectrum was obtained from data on the excited states of O17 and O15. The calculation used a zero-range approximation for the residual interaction.
B.M. Spicer, J.M. Eisenberg
openaire +1 more source
Rotational spectra of nuclei following O16
Nuclear Physics, 1957Abstract The possibility of the application of the strong coupling collective model (rotational model) to nuclei in the region following O16 (s-d shells) is discussed. A calculation shows that nuclei with big deformations may be expected in the considered region.
openaire +1 more source
Disintegration of O16 and C12 by fast neutrons
Nuclear Physics, 1963Abstract The disintegration of O 16 and C 12 by fast neutrons has been studied using a grid-type ionization chamber filled with CO 2 Ar or CO 2 Kr mixtures. Mono-energetic neutrons for studying the reactions from 5.0–8.8 MeV were produced with the D(d, n)He 3 reaction using a gas target.
E.A. Davis +3 more
openaire +1 more source
A scintillation spectrometer study of the photodisintegration of O16
Nuclear Physics, 1957Abstract The nuclear reactions O16(γ, pγ′)N15 and O16(γ, nγ′)O15 were used to study the photodisintegration of O16. Various bremsstrahlung spectra with peak energies ranging between 16 and 30 MeV were used to excite the target nuclei. The photons emitted in the two reactions were measured with a NaI(T1) scintillation spectrometer covering photon ...
openaire +1 more source
O16 Douleurs neuropathiques post-opératoires
Douleurs : Evaluation - Diagnostic - Traitement, 2007Incidence de la douleur neuropathique en post-operatoire La douleur chronique postoperatoire a une incidence sous-evaluee. Selon les modeles elle varie de 0-80 %. Les mecanismes sont multiples associant exces de nociception, douleur neuropathique, consequences de traitement associes (radiotherapie, chimiotherapie) [1].
openaire +1 more source
Electric quadrupole enhancement near O16
Nuclear Physics, 1959Abstract The core enhancement of E2 effects near O 16 is calculated on the shell model with configuration mixing. The physical basis of the method is clarified by tracing its connection with Hartree-Fock theory and it is shown that it allows only for the static distortion of the core, but not for the genuine dynamic correlations between the odd ...
openaire +1 more source
Journal of Nutrition Education and Behavior, 2007
Janet McLaughlin, Leigh Ann Edwards
openaire +1 more source
Janet McLaughlin, Leigh Ann Edwards
openaire +1 more source