Title :
Effect of germanium doping on pyroelectric and piezoelectric properties of Sn/sub 2/P/sub 2/S/sub 6/ single crystal
Author :
Maior, M.M. ; Gurzan, M.I. ; Molnar, Sh.B. ; Prits, I.P. ; Vysochanskii, Yu.M.
Author_Institution :
Inst. for Phys., Uzhgorod State Univ., Russia
fDate :
7/1/2000 12:00:00 AM
Abstract :
The results of the search for dopants to optimize the ferroelectric phase transition temperature and pyroelectric and piezoelectric properties of Sn/sub 2/P/sub 2/S/sub 6/ crystals are reported. Among all dopants only germanium causes a pronounced shift of the phase transition toward higher temperatures. The highest Curie temperature achieved by Ge doping is as high as 88/spl deg/C. The major advantage of the Ge-doped crystals as compared to pure Sn/sub 2/P/sub 2/S/sub 6/ is that the hydrostatic piezoelectric and pyroelectric response is kept high in a wider temperature range with much lower temperature dependence. The effects of the doping on pyroelectric and piezoelectric properties, characterizing the sensitivity of the material to thermal and hydroacoustic excitation, are discussed.
Keywords :
ferroelectric Curie temperature; ferroelectric materials; ferroelectric transitions; germanium; piezoelectric materials; pyroelectricity; tin compounds; Curie temperature; Ge doping; Sn/sub 2/P/sub 2/S/sub 6/:Ge; Sn/sub 2/P/sub 2/S/sub 6/:Ge single crystal; ferroelectric phase transition temperature; hydroacoustic excitation; piezoelectric properties; pyroelectric properties; sensitivity; temperature dependence; thermal excitation; Crystals; Doping; Ferroelectric materials; Germanium; Piezoelectric materials; Pyroelectricity; Temperature dependence; Temperature distribution; Temperature sensors; Tin;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
