High frequency transducer for vessel imaging based on lead-free Mn-doped (K0.44Na0.56)NbO3 single crystal

High frequency transducer for vessel imaging based on lead-free Mn-doped (K0.44Na0.56)NbO3 single crystal

We report a high frequency ultrasonic transducer up to 50 MHz for vessel imaging based on a lead-free (K0.44Na0.56)NbO3–0.5 mol. % Mn (Mn-KNN) single crystal, which has a high electromechanical coupling coefficient k t of 0.64 and a large thickness frequency constant N t of 3210 kHz · mm. The Krimho...

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Veröffentlicht in:Applied physics letters 2017-08, Vol.111 (9)
Hauptverfasser: Ma, Jinpeng, Xue, Saidong, Zhao, Xiangyong, Wang, Feifei, Tang, Yanxue, Duan, Zhihua, Wang, Tao, Shi, Wangzhou, Yue, Qingwen, Zhou, Huifang, Luo, Haosu, Fang, Bijun
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Circuits
Computer simulation
Coupling coefficients
Equivalent circuits
High frequencies
Lead free
Niobates
Single crystals
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Zusammenfassung:We report a high frequency ultrasonic transducer up to 50 MHz for vessel imaging based on a lead-free (K0.44Na0.56)NbO3–0.5 mol. % Mn (Mn-KNN) single crystal, which has a high electromechanical coupling coefficient k t of 0.64 and a large thickness frequency constant N t of 3210 kHz · mm. The Krimholtz, Leedom, and Mattaei (KLM) equivalent circuit model was utilized to simulate and optimize the pulse-echo response combined with PiezoCAD software. Theoretically, a high -6 dB bandwidth of 74.94% was obtained at a center frequency of 50.47 MHz and optimized matching conditions. The experimental results showed a center frequency of 51.8 MHz with a −6 dB bandwidth of 70.2%. The excellent global performance makes this lead-free single-crystal transducer quite potential in an environmentally friendly vessel imaging transducer.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4990072