Stark effect spectroscopy of mono- and few-layer MoS$_{2}$

Armin Regler; Florian Heimbach; Jakob Wierzbowski; Jonathan Becker; Jonathan J. Finley; Julian Klein; Kai M\"uller; Michael Kaniber

arxiv: 1602.02010 · v1 · pith:75VTNQIKnew · submitted 2016-02-05 · ❄️ cond-mat.mes-hall

Stark effect spectroscopy of mono- and few-layer MoS₂

Julian Klein , Jakob Wierzbowski , Armin Regler , Jonathan Becker , Florian Heimbach , Kai M\"uller , Michael Kaniber , Jonathan J. Finley This is my paper

classification ❄️ cond-mat.mes-hall

keywords a-excitoneffectexcitonfew-layermono-polarisabilityspectroscopystark

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We demonstrate electrical control of the A-exciton interband transition in mono- and few-layer $MoS_{2}$ crystals embedded into photocapacitor devices via the DC Stark effect. Electric field dependent low-temperature photoluminescence spectroscopy reveals a significant tuneability of the A-exciton transition energy, up to $\sim 16 meV$, from which we extract the mean DC exciton polarisability $<\bar{\beta}>_{N} = (0.58 \pm 0.25) \cdot 10^{-8} DmV^{-1}$. The exciton polarisability is shown to be layer-independent, indicating a strong localisation of both electron and hole wave functions in each individual layer.

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Stark effect spectroscopy of mono- and few-layer MoS₂

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