High-temperature 434 MHz surface acoustic wave devices based on GaPO4
High-temperature 434 MHz surface acoustic wave devices based on GaPO4
Research into surface acoustic wave (SAW) devices began in the early 1970s and led to the development of high performance, small size and high reproducability devices. Much research has now been done on the application of such devices to consumer electronics, process monitoring and communication systems. The use of novel materials such as gallium phosphate (GaPO4), extends the operating temperature of the elements. SAW devices based on this material operating at 434 MHz up to 800C, can be used for passive wireless sensor applications. Interdigital transducer (IDT) devices with Platinum/ Zirconium metallization and 1.4 micron finger-gap ratio of 1:1 have been fabricated using direct-write e-beam lithography and a lift-off process. The performance and long term stability of these devices has been studied, and the results are reported in this paper.
2465-2470
Hamidon, MN
90215504-67cd-430f-981e-a1636e53db78
Skarda, V
e4ed4002-4de8-42f8-9100-a6b0fe16948a
White, NM
c7be4c26-e419-4e5c-9420-09fc02e2ac9c
Krispel, F
54347c0f-0693-4d53-a975-0a36ee7b0e16
Krempl, P
d105929e-2e6c-48f3-9ade-3f03e83bac25
Binhack, M
66f54fe5-fc3f-4e60-aba0-f91ddb6423cf
Buff, W
a4948767-68c9-4b49-b948-ba5f9079e827
December 2006
Hamidon, MN
90215504-67cd-430f-981e-a1636e53db78
Skarda, V
e4ed4002-4de8-42f8-9100-a6b0fe16948a
White, NM
c7be4c26-e419-4e5c-9420-09fc02e2ac9c
Krispel, F
54347c0f-0693-4d53-a975-0a36ee7b0e16
Krempl, P
d105929e-2e6c-48f3-9ade-3f03e83bac25
Binhack, M
66f54fe5-fc3f-4e60-aba0-f91ddb6423cf
Buff, W
a4948767-68c9-4b49-b948-ba5f9079e827
Hamidon, MN, Skarda, V, White, NM, Krispel, F, Krempl, P, Binhack, M and Buff, W
(2006)
High-temperature 434 MHz surface acoustic wave devices based on GaPO4.
IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, 53 (12), .
Abstract
Research into surface acoustic wave (SAW) devices began in the early 1970s and led to the development of high performance, small size and high reproducability devices. Much research has now been done on the application of such devices to consumer electronics, process monitoring and communication systems. The use of novel materials such as gallium phosphate (GaPO4), extends the operating temperature of the elements. SAW devices based on this material operating at 434 MHz up to 800C, can be used for passive wireless sensor applications. Interdigital transducer (IDT) devices with Platinum/ Zirconium metallization and 1.4 micron finger-gap ratio of 1:1 have been fabricated using direct-write e-beam lithography and a lift-off process. The performance and long term stability of these devices has been studied, and the results are reported in this paper.
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Published date: December 2006
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EEE
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Local EPrints ID: 263252
URI: http://eprints.soton.ac.uk/id/eprint/263252
PURE UUID: e0a536e7-c0b7-4eb2-b8b5-ec4dc1e6d625
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Date deposited: 18 Dec 2006
Last modified: 09 Jan 2022 02:39
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Author:
MN Hamidon
Author:
V Skarda
Author:
NM White
Author:
F Krispel
Author:
P Krempl
Author:
M Binhack
Author:
W Buff
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