Your search keyword '"Sigl, Lukas"' showing total 2 results

1. Engineering the Luminescence and Generation of Individual Defect Emitters in Atomically Thin MoS2

Author

Klein, Julian, Sigl, Lukas, Gyger, Samuel, Barthelmi, Katja, Florian, Matthias, Rey, Sergio, Taniguchi, Takashi, Watanabe, Kenji, Jahnke, Frank, Kastl, Christoph, Zwiller, Val, Jöns, Klaus D., Mueller, Kai, Wurstbauer, Ursula, Finley, Jonathan J., Holleitner, Alexander W., Klein, Julian, Sigl, Lukas, Gyger, Samuel, Barthelmi, Katja, Florian, Matthias, Rey, Sergio, Taniguchi, Takashi, Watanabe, Kenji, Jahnke, Frank, Kastl, Christoph, Zwiller, Val, Jöns, Klaus D., Mueller, Kai, Wurstbauer, Ursula, Finley, Jonathan J., and Holleitner, Alexander W.

Abstract

We demonstrate the on-demand creation and positioning of photon emitters in atomically thin MoS2 with very narrow ensemble broadening and negligible background luminescence. Focused helium-ion beam irradiation creates 100s to 1000s of such mono-typical emitters at specific positions in the MoS2 monolayers. Individually measured photon emitters show anti-bunching behavior with a g(2)(0) similar to 0.23 and 0.27. From a statistical analysis, we extract the creation yield of the He-ion induced photon emitters in MoS2 as a function of the exposed area, as well as the total yield of single emitters as a function of the number of He ions when single spots are irradiated by He ions. We reach probabilities as high as 18% for the generation of individual and spectrally clean photon emitters per irradiated single site. Our results firmly establish 2D materials as a platform for photon emitters with unprecedented control of position as well as photophysical properties owing to the all-interfacial nature., QC 20210408

Published

2021

2. Gate-Switchable Arrays of Quantum Light Emitters in Contacted Monolayer MoS2 van der Waals Heterodevices

Author

Hoetger, Alexander, Klein, Julian, Barthelmi, Katja, Sigl, Lukas, Sigger, Florian, Manner, Wolfgang, Gyger, Samuel, Florian, Matthias, Lorke, Michael, Jahnke, Frank, Taniguchi, Takashi, Watanabe, Kenji, Jöns, Klaus D., Wurstbauer, Ursula, Kastl, Christoph, Mueller, Kai, Finley, Jonathan J., Holleitner, Alexander W., Hoetger, Alexander, Klein, Julian, Barthelmi, Katja, Sigl, Lukas, Sigger, Florian, Manner, Wolfgang, Gyger, Samuel, Florian, Matthias, Lorke, Michael, Jahnke, Frank, Taniguchi, Takashi, Watanabe, Kenji, Jöns, Klaus D., Wurstbauer, Ursula, Kastl, Christoph, Mueller, Kai, Finley, Jonathan J., and Holleitner, Alexander W.

Abstract

We demonstrate electrostatic switching of individual, site-selectively generated matrices of single photon emitters (SPEs) in MoS2 van der Waals heterodevices. We contact monolayers of MoS2 in field-effect devices with graphene gates and hexagonal boron nitride as the dielectric and graphite as bottom gates. After the assembly of such gate-tunable heterodevices, we demonstrate how arrays of defects, that serve as quantum emitters, can be site-selectively generated in the monolayer MoS2 by focused helium ion irradiation. The SPEs are sensitive to the charge carrier concentration in the MoS2 and switch on and off similar to the neutral exciton in MoS2 for moderate electron doping. The demonstrated scheme is a first step for producing scalable, gate-addressable, and gate-switchable arrays of quantum light emitters in MoS2 heterostacks., QC 20210401

Published

2021