How to solve problems in micro- and nanofabrication caused by the emission of electrons and charged metal atoms during e-beam evaporation

Volmer, Frank; Inga, Seidler,; Bißwanger, Timo; Tu, Jhih-Sian; Schreiber, Lars R.; Stampfer, Christoph; Beschoten, Bernd

doi:10.1088/1361-6463/abe89b

Cited by 13 publications

(9 citation statements)

References 62 publications

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“…However, electron-matter interaction also generates X-rays, electrons, and ionized particles 32 . Those may play a role in heating but to a lesser extent 33 . AlO x is a dielectric: it transfers poorly heat and charges: this translates into the production of ionized molecules which can reach the samples surface.…”

Section: Discussionmentioning

confidence: 99%

Role of a capping layer on the crystalline structure of Sn thin films grown at cryogenic temperatures on InSb substrates

Chen,

Dempsey,

Pendharkar

et al. 2023

Preprint

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Section: Discussionmentioning

confidence: 99%

Role of a capping layer on the crystalline structure of Sn thin films grown at cryogenic temperatures on InSb substrates

Chen,

Dempsey,

Pendharkar

et al. 2023

Preprint

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“…For this purpose, we measure graphene spin-valve devices with cobalt electrodes and either MgO or Al 2 O 3 tunnel barriers (details on the fabrication process in Refs. [36,37,[93][94][95][96]). Figs.…”

Section: Phase-shifted Charge Signal In Lock-in Measurementsmentioning

confidence: 99%

Charge-induced artifacts in non-local spin transport measurements: How to prevent spurious voltage signals

Volmer,

Bisswanger,

Schmidt

et al. 2021

Preprint

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To conduct spin-sensitive transport measurements, a non-local device geometry is often used to avoid spurious voltages that are caused by the flow of charges. However, in the vast majority of reported non-local spin valve, Hanle spin precession, or spin Hall measurements background signals have been observed that are not related to spins. We discuss seven different types of these charge-induced signals and explain how these artifacts can result in erroneous or misleading conclusions when falsely attributed to spin transport. The charge-driven signals can be divided into two groups: Signals that are inherent to the device structure and/or the measurement setup and signals that depend on a common-mode voltage. We designed and built a voltage-controlled current source that significantly diminish all spurious voltage signals of the latter group by creating a virtual ground within the non-local detection circuit. This is especially important for lock-in-based measurement techniques, where a common-mode voltage can create a phase-shifted signal with an amplitude several orders of magnitude larger than the actual spin signal. Measurements performed on graphene-based non-local spin valve devices demonstrate how all spurious voltage signals that are caused by a common-mode voltage can be completely suppressed by such a current source.

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“…We attribute this to the small contact resistances of below 10 kΩ and the small spin resistance of 0.4 Ω indicating that contact-induced spin scattering might be the reason for the reduced device performance [22]. Further studies are needed to explore whether these device-to-device variations are caused by surface contaminations, varying qualities of the oxide barriers, or potential issues during the metallization process of the ferromagnetic electrodes [52].…”

mentioning

confidence: 99%

CVD bilayer graphene spin valves with 26 $μ$m spin diffusion length at room temperature

Bisswanger,

Winter,

Schmidt

et al. 2021

Preprint

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We present inverted spin-valves fabricated from CVD-grown bilayer graphene (BLG) that show more than a doubling in device performance at room temperature compared to state-of-the art bilayer graphene spin-valves. This is made possible by a PDMS droplet-assisted full-dry transfer technique that compensates for previous process drawbacks in device fabrication. Gate-dependent Hanle measurements show spin lifetimes of up to 5.8 ns and a spin diffusion length of up to 26 µm at room temperature combined with a charge carrier mobility of ≈ 24 000 cm 2 (Vs) −1 for the best device. Our results demonstrate that CVD-grown BLG shows equally good room temperature spin transport properties as both CVD-graphene and even exfoliated single-layer graphene.

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How to solve problems in micro- and nanofabrication caused by the emission of electrons and charged metal atoms during e-beam evaporation

Cited by 13 publications

References 62 publications

Role of a capping layer on the crystalline structure of Sn thin films grown at cryogenic temperatures on InSb substrates

Role of a capping layer on the crystalline structure of Sn thin films grown at cryogenic temperatures on InSb substrates

Charge-induced artifacts in non-local spin transport measurements: How to prevent spurious voltage signals

CVD bilayer graphene spin valves with 26 $μ$m spin diffusion length at room temperature

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