Metallic nanofilm as resonance-free airborne ultrasound emitter

Author

Daschewski, M. ; Harrer, Andreas ; Prager, J. ; Kreutzbruck, M. ; Beck, Uwe ; Lange, Tobias ; Weise, Matthias

Author_Institution

Fed. Inst. for Mater. Res. & Testing (BAM), Berlin, Germany

fYear

2012

fDate

7-10 Oct. 2012

Firstpage

965

Lastpage

967

Abstract

A novel approach for the generation of broadband airborne ultrasound by using the thermo-acoustic effect is presented in this contribution. We investigate the applicability of resonance-free thermo-acoustic emitters for generation of very short high pressure airborne ultrasound pulses. A thermoacoustic emitter consisting of a 30 nm thin metallic film on a usual soda-lime glass substrate generates sound pressure values of more than 140 dB at 60 mm distance. The results are compared with conventional piezoelectric airborne ultrasound transducers. Our investigations show the applicability of the thermo-acoustic devices for broadband and high pressure ultrasound emitters using pulse excitation.

Keywords

metallic thin films; nanostructured materials; thermoacoustics; ultrasonic transducers; broadband airborne ultrasound generation; distance 60 mm; piezoelectric airborne ultrasound transducer; pulse excitation; resonance-free airborne ultrasound emitter; resonance-free thermoacoustic emitter effect; size 30 nm; soda-lime glass substrate; thermoacoustic device; thin metallic nanofilm; very short high pressure airborne ultrasound pulse generation; Acoustics; Atmospheric measurements; Broadband communication; Titanium; Transducers; Ultrasonic imaging; Velocity measurement; broadband airborne ultrasound; high pressure airborne ultrasound; resonance-free ultrasound transducer; sound particle velocity measurement; thermo-acoustic;

fLanguage

English

Publisher

ieee

Conference_Titel

Ultrasonics Symposium (IUS), 2012 IEEE International

Conference_Location

Dresden

ISSN

1948-5719

Print_ISBN

978-1-4673-4561-3

Type

conf

DOI

10.1109/ULTSYM.2012.0241

Filename

6562142