Dependences of Specific Loss Power on Magnetic Field and Frequency in Elongated Platelet $gamma$-Fe $_{2}$O $_{3}$ Particles Using Hysteresis-Loss Heating

Kishimoto M.; Yanagihara H.; Kita E.; H.; Kita; E.

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Dependences of Specific Loss Power on Magnetic Field and Frequency in Elongated Platelet $gamma$-Fe $_{2}$O $_{3}$ Particles Using Hysteresis-Loss Heating

机译：磁滞-损耗加热法对伸长血小板$ gamma-Fe $ _ {2} $ O $ _ {3} $颗粒中比损耗功率与磁场和频率的依赖性

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Elongated platelet $gamma$ -Fe$_{2}$ O$_{3}$ particles with particle sizes of about 30 to 100 nm were prepared for magnetic thermoablation using hysteresis-loss heating of the ferromagnetic particles. The coercive force was based on the shape anisotropy of the elongated shape. The dependences of specific loss power (SLP) on the magnetic field strength and frequency were examined for particles in the range of 133 to 640 Oe and 117 to 429 kHz, respectively. The dependence of SLP on the magnetic field was similar to that of areas in minor hysteresis loops and showed that the heat generation in the particles was almost entirely based on hysteresis loss. To realize effective hysteresis-loss heating a magnetic field about four times stronger than the coercive force of particles was necessary. The SLP increased linearly with increasing frequency. Particles with a coercive force of 153 Oe showed an SLP of 1670 W/g under a magnetic field of 500 Oe and at a frequency of 429 kHz.

机译：伸长的血小板 $ gamma $ -Fe $ _ { 2} $ O $ _ {3} $ 粒子，其粒径约为30至使用铁磁颗粒的磁滞损耗加热制备了100 nm的磁热消融材料。矫顽力基于细长形状的形状各向异性。对于分别在133至640 Oe和117至429 kHz范围内的粒子，研究了比损耗功率（SLP）对磁场强度和频率的依赖性。 SLP对磁场的依赖性与较小的磁滞回线中的区域相似，表明颗粒中的热量几乎完全基于磁滞损耗。为了实现有效的磁滞损耗加热，磁场强度必须比颗粒的矫顽力大四倍。 SLP随着频率的增加而线性增加。矫顽力为153 Oe的颗粒在500 Oe的磁场和429 kHz的频率下显示的SLP为1670 W / g。

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来源
《IEEE Transactions on Magnetics》 |2013年第8apart2期|4756-4760|共5页
作者
Kishimoto M.; Yanagihara H.; Kita E.; H.; Kita; E.;
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作者单位

Institute of Applied Physics,, University of Tsukuba,, Tsukuba,, Japan;

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原文格式 PDF
正文语种 eng
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关键词
$gamma$-Fe$_{2}$O$_{3}$gamma; Hyperthermia; hysteresis loss; iron oxide; platelet particles; thermoablation;

机译：$γ-Fe$ _ {2} $ O $ _ {3} $γ;体温过高;磁滞损耗;氧化铁;血小板颗粒;热消融;

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2. Synthesis and magnetic properties of platelet y-Fe_2O_3 particles for medical applications using hysteresis-loss heating [J] . Mikio Kishimoto, Makoto Minagawa, Hideto Yanagihara, Journal of magnetism and magnetic materials . 2012,第7期

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Dependences of Specific Loss Power on Magnetic Field and Frequency in Elongated Platelet $gamma$-Fe $_{2}$O $_{3}$ Particles Using Hysteresis-Loss Heating

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