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Acoustic signals generated in piezoelectric lead–zirconate–titanate elements by direct bombardment with xenon ions

active ceramics for calorimeter PZT radiation detector 13. Climate action space dust sensor 7. Clean energy piezoelectric response to radiation
DOI: 10.1016/j.nima.2006.08.060 Publication Date: 2006-09-19T15:18:44Z
Abstract Supplemental Material References Cited by
AUTHORS (16)
T. Miyachi
Y. Nakamura
G. Kuraza
M. Fujii
A. Nagashima
N. Hasebe
M.N. Kobayashi
S. Kobayashi
M. Miyajima
K. Mori
O. Okudaira
N. Yamashita
H. Shibata
T. Murakami
Y. Uchihori
N. Okada
ABSTRACT
Abstract Acoustic signals were observed with a lead–zirconate–titanate (PZT) element that was directly irradiated with a 368 MeV/n xenon beam. Using an array comprising PZT elements, the energy loss in the PZT was studied. These elements are sensitive to an energy deposit of 100 nJ. A series of values of output voltage vs. integrated thickness of PZT was represented along a line similar to the ionization loss calculated by the Bethe–Bloch formula. The induced voltage was attributed to several processes—ionization, thermal, elastic, and piezoelectric processes. This study describes the possible applications of the PZT element as an active medium for calorimeters and a monitor for hypervelocity impact of space dust.
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