Localized strain tuning of exciton emissions on suspended two-dimensional materials
ORAL
Abstract
Two-dimensional materials can endure extraordinarily large strain which strongly influences its electronic and optical properties1. Strain tuning has been reported for free excitons in transition metal dichalcogenides (TMDs) 2,3 as well as for single photon emissions in TMDs4 or in hexagonal boron nitrides (hBN)5. However, strain applied on the entire substrate or over few micrometers has a limited ability to produce or control individual strain-induced quantum emissions in TMDs. Here we demonstrate extremely localized strain tuning of exciton emissions in suspended 2D materials induced by sub-10nm radius tip mechanical probe, which can be potentially used to create and tune nonclassical light sources in atomically thin materials.
1. Johari and Shenoy, ACS Nano 6 (6), pp 5449–5456 (2012)
2. Zhu et al., Physical Reviews B 88, 121301 (2013)
3. Llyod et al., Nano Letters 16 (9), pp 5836–5841 (2016)
4. Chakraborty et al., in preperation
5. Grosso et al., Nature Communications 8, 705 (2017)
1. Johari and Shenoy, ACS Nano 6 (6), pp 5449–5456 (2012)
2. Zhu et al., Physical Reviews B 88, 121301 (2013)
3. Llyod et al., Nano Letters 16 (9), pp 5836–5841 (2016)
4. Chakraborty et al., in preperation
5. Grosso et al., Nature Communications 8, 705 (2017)
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Presenters
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Hyowon Moon
Massachusetts Institute of Technology
Authors
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Hyowon Moon
Massachusetts Institute of Technology
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Chitraleema Chakraborty
Electrical Engineering and Computer Science, MIT, Massachusetts Institute of Technology, University of Rochester
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Gabriele Grosso
Massachusetts Institute of Technology
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Dirk R. Englund
Electrical Engineering and Computer Science, MIT, Massachusetts Institute of Technology, MIT, EECS, MIT, Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Research Laboratory of Electronics, Massachusetts Institute of Technology