Kramer R B G, Silhanek A V, Van de Vondel J, Raes B, Moshchalkov V V
INPAC-Institute for Nanoscale Physics and Chemistry, Nanoscale Superconductivity and Magnetism Pulsed Fields Group, K. U. Leuven, B-3001 Leuven, Belgium.
Phys Rev Lett. 2009 Aug 7;103(6):067007. doi: 10.1103/PhysRevLett.103.067007.
A direct visualization of the flux distribution in a Pb film covering a fivefold Penrose array of Co dots is obtained by mapping the local field distribution with a scanning Hall probe microscope. We demonstrate that stable vortex configurations can be found for fields H approximately 0.8H_{1}, H_{1}, and 1.6H_{1}, where H_{1} corresponds to one flux quantum per pinning site. The vortex pattern at 0.8H_{1} corresponds to one vacancy in one of the vertices of the thin tiles, whereas at 1.6H_{1} the vortex structure can be associated with one interstitial vortex inside each thick tile. Strikingly, for H = 1.6H_{1}, interstitial and pinned vortices arrange themselves in ringlike structures ("vortex corrals") which favor the formation of a giant vortex state at their center.
通过使用扫描霍尔探针显微镜绘制局部场分布,获得了覆盖钴点的五重彭罗斯阵列的铅膜中通量分布的直接可视化结果。我们证明,对于约为0.8H₁、H₁和1.6H₁的场H,可以找到稳定的涡旋构型,其中H₁对应于每个钉扎位点一个磁通量子。0.8H₁处的涡旋图案对应于薄瓷砖一个顶点处的一个空位,而在1.6H₁处,涡旋结构可与每个厚瓷砖内的一个间隙涡旋相关联。引人注目的是,对于H = 1.6H₁,间隙涡旋和钉扎涡旋排列成环状结构(“涡旋围栏”),这有利于在其中心形成巨涡旋态。
Zotero 插件