Epitaxy of MgO magnetic tunnel barriers on epitaxial graphene

Godel F.; Pichonat E.; Vignaud D.; Majjad H.; Metten D.; Henry Y.; Berciaud S.; Dayen J.-F.; Halley D.

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Epitaxy of MgO magnetic tunnel barriers on epitaxial graphene

机译：外延石墨烯上MgO磁隧道势垒的外延

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Epitaxial growth of electrodes and tunnel barriers on graphene is one of the main technological bottlenecks for graphene spintronics. In this paper, we demonstrate that MgO(111) epitaxial tunnel barriers, one of the prime candidates for spintronic application, can be grown by molecular beam epitaxy on epitaxial graphene on SiC(0001). Ferromagnetic metals (Fe, Co, Fe_(20)Ni _(80)) were epitaxially grown on top of the MgO barrier, thus leading to monocrystalline electrodes on graphene. Structural and magnetic characterizations were performed on these ferromagnetic metals after annealing and dewetting: they form clusters with a 100 nm typical lateral width, which are mostly magnetic monodomains in the case of Fe. This epitaxial stack opens the way to graphene spintronic devices taking benefits from a coherent tunnelling current through the epitaxial MgO/graphene stack.

机译：石墨烯上电极的外延生长和隧道势垒是石墨烯自旋电子学的主要技术瓶颈之一。在本文中，我们证明了MgO（111）外延隧道势垒是自旋电子学应用的主要候选材料之一，可以通过分子束外延在SiC（0001）上的外延石墨烯上生长。铁磁金属（Fe，Co，Fe_（20）Ni_（80））外延生长在MgO势垒的顶部，从而在石墨烯上形成单晶电极。在退火和去湿后，对这些铁磁性金属进行结构和磁性表征：它们形成典型横向宽度为100 nm的簇，在Fe的情况下主要是磁性单畴。这种外延叠层为通向石墨烯自旋电子器件的方式开辟了道路，该设备将受益于通过外延MgO /石墨烯叠层的相干隧穿电流。

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《Nanotechnology》 |2013年第47期|共6页
作者
Godel F.; Pichonat E.; Vignaud D.; Majjad H.; Metten D.; Henry Y.; Berciaud S.; Dayen J.-F.; Halley D.;
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正文语种 eng
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barriers; epitaxial; graphene;

机译：势垒;外延;石墨烯;

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专利

1. Epitaxy of MgO magnetic tunnel barriers on epitaxial graphene [J] . Godel F., Pichonat E., Vignaud D., Nanotechnology . 2013,第47期

机译：外延石墨烯上MgO磁隧道势垒的外延
2. Epitaxial growth of MgO and Fe/MgO/Fe magnetic tunnel junctions on (100)-Si by molecular beam epitaxy [J] . G. X. Miao, J. Y. Chang, M. J. van Veenhuizen, Applied Physicsletters . 2008,第14期

机译：通过分子束外延在（100）-Si上外延生长MgO和Fe / MgO / Fe磁性隧道结
3. Giant oscillations in spin-dependent tunneling resistances as a function of barrier thickness in fully epitaxial magnetic tunnel junctions with a MgO barrier [J] . Takao Marukame, Takayuki Ishikawa, Tomoyuki Taira, Physical review . 2010,第13期

机译：具有MgO势垒的完全外延磁性隧道结中自旋相关隧穿电阻的巨幅振荡与势垒厚度的关系
4. Annealing-induced Solid-phase Epitaxy at Interfaces between CoFeB Layers and MgO Barrier-layer in CoFeB/MgO/CoFeB Magnetic Tunnel Junctions and their Magnetic Properties [C] . Y. Kitamoto, T. Takeuchi, K. Tsunekawa, ECS Meeting/PRiME . 2009

机译：在CoFeB / MgO / CoFeB磁隧道交界处的CoFeB层和MgO阻挡层之间的界面处的退火诱导的固相外延
5. Perpendicular Magnetic Tunnel Junctions with MgO Tunnel Barrier [D] . Almasi, Hamid. 2017

机译：具有MgO隧道势垒的垂直磁性隧道结
6. Effect of MgO Underlying Layer on the Growth of GaOx Tunnel Barrier in Epitaxial Fe/GaOx/(MgO)/Fe Magnetic Tunnel Junction Structure [O] . Sai Krishna Narayananellore, Naoki Doko, Norihiro Matsuo, 2017

机译：MgO下层对外延Fe / GaOx /（MgO）/ Fe磁性隧道结结构中GaOx隧道势垒生长的影响
7. Growth of ferromagnetic Fe4N epitaxial layers and a-axis-oriented Fe4N/MgO/Fe magnetic tunnel junction on MgO(0 0 1) substrates using molecular beam epitaxy [O] . Narahara A., Ito K., Suemasu T. 2009

机译：利用分子束外延在MgO（0 0 1）衬底上生长铁磁Fe4N外延层和a轴取向Fe4N / MgO / Fe磁性隧道结

Epitaxy of MgO magnetic tunnel barriers on epitaxial graphene

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