@article{841a8445700c4b4a8f39bbf0ec809e3e,
title = "The 14N(e, d0) reaction in the giant multipole resonance region",
abstract = "Cross sections have been measured for the reaction 14N(e, d0)12C over the incident electron energy range of 18 to 29 MeV together with the angular distributions of emitted deuterons. Analysis of these data has been performed by using a cluster model. The giant quadrupole resonance is deduced around 20 MeV. The dipole strength has two peaks which correspond to the pigmy and the giant resonances of the (γ, p0) reaction, respectively. A monopole component is found to be necessary to reproduce the experimental results.",
keywords = "Nuclear reactions",
author = "H. Taneichi and H. Ueno and K. Shoda and Y. Kawazoe and T. Tsukamoto",
note = "Funding Information: The existence of a pronounced isoscalar giant quadrupole resonance (GQR) has been established for most nuclei throughout the periodic table by various reactions {\textquoteleft}*{\textquoteleft}). Recently, the Heidelberg-J~lich group successfuBy observed a strength concentrated in the expected region of GQR 3, in light nuclei by using the scattering of a -particles with incident energies above = 140 MeV [ref. 2)j. They have measured the energy distributions of CX-particles scattered from 14N as well, and found a GQR peak at E, = 20 MeV with a width of I{\textquoteright} = 7 MeV. Another important multipole resonance is the isoscalar giant monopole resonance (GMR). The excitation energy of the breathing mode 0{\textquoteright} state is closely related to the incompressibility t Research supported in part by Grant-in-Aid for Scientific Research from the Ministry of Education.",
year = "1980",
doi = "10.1016/0375-9474(80)90394-2",
language = "English",
volume = "350",
pages = "157--166",
journal = "Nuclear Physics A",
issn = "0375-9474",
publisher = "Elsevier",
number = "1-2",
}