Simple theory of acoustic amplification
- 1 July 1971
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Sonics and Ultrasonics
- Vol. 18 (3) , 115-118
- https://doi.org/10.1109/t-su.1971.29605
Abstract
Carriers moving in a semiconductor can impart gain or loss to an acoustic wave traveling through piezoelectric material. A physical picture of this familliar interaction process is given that applies to piezoelectric semiconductors as well as to layered structures in which acoustic wave and movmg earners are phystcally separated. In any of these systems, an acoustic wave is accompanied by a space charge wave, a sinusoidal pattern of electric charges. Such a charge pattern has a relaxation time that depends strongly on system geometry. It is shown that once the relaxation time is known, gain or loss as a function of frequency, carrier drift velocity, and electromechanical coupling factor can be found by a stmple method based on physical intuition.Keywords
This publication has 6 references indexed in Scilit:
- 100 MHz surface acoustoelectric amplifier exhibiting stable terminal gain with DC drift fieldProceedings of the IEEE, 1969
- AMPLIFICATION OF ACOUSTIC SURFACE WAVES WITH ADJACENT SEMICONDUCTOR AND PIEZOELECTRIC CRYSTALSApplied Physics Letters, 1968
- Elastic Surface Waves on Free Surface and Metallized Surface of CdS, ZnO, and PZT-4Journal of Applied Physics, 1967
- The coupled modes of acoustic waves and drifting carriers in piezoelectric crystalsProceedings of the IEEE, 1964
- Amplification of Ultrasonic Waves in Piezoelectric SemiconductorsJournal of Applied Physics, 1962
- Ultrasonic Amplification in CdSPhysical Review Letters, 1961