1982
DOI: 10.1007/bf02026424
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Hypersound attenuation and phase velocities in evaporated polycrystalline films of silver, copper and constantan between 1 and 24 GHz

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1983
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Cited by 18 publications
(2 citation statements)
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“…(The Ta layer was not included, for simplicity.) In the simulations intrinsic material ultrasonic attenuation is neglected; at the frequencies concerned this is a very good approximation for the distances of propagation (∼100 µm) in question and for the materials concerned [38][39][40]. Figure 2(a) shows a simulated image for out-of-plane surface displacement (denoted by u(r, t)) at approximately 19.6 ns after excitation of the a = 4 µm grating.…”
Section: Time-domain Simulationsmentioning
confidence: 99%
“…(The Ta layer was not included, for simplicity.) In the simulations intrinsic material ultrasonic attenuation is neglected; at the frequencies concerned this is a very good approximation for the distances of propagation (∼100 µm) in question and for the materials concerned [38][39][40]. Figure 2(a) shows a simulated image for out-of-plane surface displacement (denoted by u(r, t)) at approximately 19.6 ns after excitation of the a = 4 µm grating.…”
Section: Time-domain Simulationsmentioning
confidence: 99%
“…In terms of coupling processes that have been used to excite magnetic films and piezoelectric crystals, the presence of the sample in the electromagnetic field to excite acoustic waves/ phonons has been sufficient to achieve generation in the hypersonic GHz range. [24][25][26][27] In contrast, acoustic sensor measurements seem to rely on electrical signals transmitted through wires to metal electrodes in order to excite the acoustics. This theme has continued with surface acoustic waves devices, which obtain higher frequencies of operation, [28][29][30] but these devices are still impractical for providing hypersonic transverse waves that can concentrate at the molecular interface.…”
mentioning
confidence: 99%