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2 530 478

(13)

(51)

IPC

G01R27/06(2006-01-01)

(21) (22)

Application

2012136540/28, 2012-08-24

(24)

Start date

2012-08-24

(22)

Actual filing date

2012-08-24

(45)

Published

2014-10-10

(72)

Inventor

Zimnjakov Dmitrij AleksandrovichKolotyrin Aleksandr AlekseevichNikishin Evgenij LeonardovichPavlova Marija Valentinovna

(73)

Holder

Federal'Noe Gosudarstvennoe Bjudzhetnoe Obrazovatel'Noe Uchrezhdenie Vysshego Professional'Nogo Obrazovanija Gosudarstvennyj Tekhnicheskij Universitet Imeni Gagarina Ju.A." Imeni Gagarina Ju.A.)

METHOD OF DISPLAY OF STATIONARY ELECTROMAGNETIC WAVE FIELD PATTERN IN MULTIELEMENT ELECTROACOUSTIC TRANSDUCER Russian patent published in 2014 - IPC G01R27/06

Abstract RU 2530478 C2

FIELD: measuring instrumentation.

SUBSTANCE: invention refers to UHF measuring instrumentation. Method involves supply of electromagnetic signal from UHF generator via decoupler to multielement electroacoustic transducer applied onto crystalline sample; exposition to laser light beam for optical medium sites located along multielement electroacoustic transducer, with discharge capacity depending on the level of stationary electromagnetic wave field in multielement electroacoustic transducer; registration of light intensity distribution along transducer after the light passes through optical medium sites; and assessment of electromagnetic wave field distribution in multielement electroacoustic transducer on the basis of registered light intensity distribution pattern. Multielement electroacoustic transducer is used to excite elastic waves in crystalline sample with acoustic link to stress-optic medium with high acousto-optic quality factor and small attenuation of elastic waves, the waves are transmitted to stress-optic medium, stress-optic medium is lit by a light beam of required polarisation from laser, directed to elastic waves excited by single elements of multielement electroacoustic transducer under Bragg angle, then light intensity distribution pattern is registered.

EFFECT: improved parameters of transducer.

3 dwg

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RU 2 530 478 C2

Authors

Zimnjakov Dmitrij Aleksandrovich

Kolotyrin Aleksandr Alekseevich

Nikishin Evgenij Leonardovich

Pavlova Marija Valentinovna

Dates

2014-10-10—Published

2012-08-24—Filed