Magneto-optical magnetometry of individual 30 nm cobalt nanowires grown by electron beam induced deposition

E. Nikulina; O. Idigoras; P. Vavassori; A. Chuvilin; A. Berger

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Magneto-optical magnetometry of individual 30 nm cobalt nanowires grown by electron beam induced deposition

机译：通过电子束诱导沉积生长的单个30 nm钴纳米线的磁光磁法

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We show that magnetometry measurements based upon the magneto-optical Kerr effect and high resolution optical microscopy can be used as a noninvasive probe of magnetization reversal for individual nano-structures. Our measurements demonstrate single pass hysteresis loop measurements for sample sizes down to 30 nm width. A quantitative signal-to-noise ratio evaluation shows that our approach achieves an at least 3-fold improvement in sensitivity if compared to focused laser based nano-magnetometry. An analysis of the physical limits of our detection scheme enables us to estimate that measurements for structures with single digit nm widths and magnetic moments of 10~(-16) Am~2 are feasible.

机译：我们表明，基于磁光克尔效应和高分辨率光学显微镜的磁强测量可以用作单个纳米结构的磁化反转的非侵入性探针。我们的测量结果证明了对样品尺寸低至30 nm宽度的单程磁滞回线测量。定量信噪比评估表明，与基于聚焦激光的纳米磁力计相比，我们的方法至少可以将灵敏度提高3倍。通过对我们检测方案的物理极限进行分析，我们可以估计对单位数纳米宽度和磁矩为10〜（-16）Am〜2的结构进行测量是可行的。

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来源
《Applied Physics Letters》 |2012年第14期|p.142401.1-142401.4|共4页
作者
E. Nikulina; O. Idigoras; P. Vavassori; A. Chuvilin; A. Berger;
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作者单位

CIC NanoGUNE Consolider, Tolosa Hiribidea 76, 20018 Donostia-San Sebastian, Spain;

CIC NanoGUNE Consolider, Tolosa Hiribidea 76, 20018 Donostia-San Sebastian, Spain;

CIC NanoGUNE Consolider, Tolosa Hiribidea 76, 20018 Donostia-San Sebastian, Spain,Ikerbasque, Basque Foundation for Science, Alameda Urquijo 36-5, 48011 Bilbao, Spain;

CIC NanoGUNE Consolider, Tolosa Hiribidea 76, 20018 Donostia-San Sebastian, Spain,Ikerbasque, Basque Foundation for Science, Alameda Urquijo 36-5, 48011 Bilbao, Spain;

CIC NanoGUNE Consolider, Tolosa Hiribidea 76, 20018 Donostia-San Sebastian, Spain;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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专利

1. Magneto-optical magnetometry of individual 30 nm cobalt nanowires grown by electron beam induced deposition [J] . Nikulina E. Applied Physics Letters . 2012,第14期

机译：电子束诱导沉积生长的单个30 nm钴纳米线的磁光磁法
2. NanoSQUID magnetometry of individual cobalt nanoparticles grown by focused electron beam induced deposition [J] . Martinez-Perez M. J., Mueller B., Schwebius D., Superconductor Science & Technology . 2017,第2期

机译：通过聚焦电子束诱导沉积种植的单个钴纳米粒子的纳米模磁体
3. Magnetization reversal in individual cobalt micro- and nanowires grown by focused-electron-beam-induced-deposition [J] . A Fernandez-Pacheco, J M De Teresa, A Szkudlarek, Nanotechnology . 2009,第47期

机译：聚焦电子束诱导沉积生长的单个钴微细线和纳米线的磁化反转
4. Resistivity and field electron emission of nanowires formed by electron beam induced chemical vapor deposition [C] . Ren Chang, rnZheng-hui Xue, rnNan Wang, The 6th China international conference on nanoscience and technology . 2007

机译：电子束诱导化学气相沉积形成纳米线的电阻率和场电子发射
5. Fabrication and characterization of nanomaterials grown by electron beam induced deposition process. [D] . Li, Juntao. 2010

机译：电子束诱导沉积工艺生长的纳米材料的制备与表征。
6. High Volume-Per-Dose and Low Resistivity of Cobalt Nanowires Grown by Ga+ Focused Ion Beam Induced Deposition [O] . Carlos Sanz-Martín, César Magén, José María De Teresa 2019

机译：Ga +聚焦离子束诱导沉积生长的钴纳米线的高剂量/低剂量率
7. Domain wall conduit behavior in cobalt nanowires grown by focused electron beam induced deposition [O] . Fernandez-Pacheco A., De Teresa J. M., Cordoba R., 2009

机译：聚焦电子束诱导沉积生长钴纳米线的畴壁导管行为

Magneto-optical magnetometry of individual 30 nm cobalt nanowires grown by electron beam induced deposition

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