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1. Spin-defect characteristics of single sulfur vacancies in monolayer MoS2

Author

A. Hötger, T. Amit, J. Klein, K. Barthelmi, T. Pelini, A. Delhomme, S. Rey, M. Potemski, C. Faugeras, G. Cohen, D. Hernangómez-Pérez, T. Taniguchi, K. Watanabe, C. Kastl, J. J. Finley, S. Refaely-Abramson, A. W. Holleitner, and A. V. Stier

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492, Chemistry, QD1-999
Abstract

Abstract Single spin-defects in 2D transition-metal dichalcogenides are natural spin-photon interfaces for quantum applications. Here we report high-field magneto-photoluminescence spectroscopy from three emission lines (Q1, Q2, and Q*) of He-ion induced sulfur vacancies in monolayer MoS2. Analysis of the asymmetric PL lineshapes in combination with the diamagnetic shift of Q1 and Q2 yields a consistent picture of localized emitters with a wave function extent of ~3.5 nm. The distinct valley-Zeeman splitting in out-of-plane B-fields and the brightening of dark states through in-plane B-fields necessitates spin-valley selectivity of the defect states and lifted spin-degeneracy at zero field. Comparing our results to ab initio calculations identifies the nature of Q1 and Q2 and suggests that Q* is the emission from a chemically functionalized defect. Analysis of the optical degree of circular polarization reveals that the Fermi level is a parameter that enables the tunability of the emitter. These results show that defects in 2D semiconductors may be utilized for quantum technologies.

Published
2023
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2. Controlling exciton many-body states by the electric-field effect in monolayer MoS_{2}

Author

J. Klein, A. Hötger, M. Florian, A. Steinhoff, A. Delhomme, T. Taniguchi, K. Watanabe, F. Jahnke, A. W. Holleitner, M. Potemski, C. Faugeras, J. J. Finley, and A. V. Stier

Subjects
Physics, QC1-999
Abstract

We report magneto-optical spectroscopy of gated monolayer MoS_{2} in high magnetic fields up to 28T and obtain new insights on the many-body interaction of neutral and charged excitons with the resident charges of distinct spin and valley texture. For neutral excitons at low electron doping, we observe a nonlinear valley Zeeman shift due to dipolar spin-interactions that depends sensitively on the local carrier concentration. As the Fermi energy increases to dominate over the other relevant energy scales in the system, the magneto-optical response depends on the occupation of the fully spin-polarized Landau levels (LL) in both K/K^{′} valleys. This manifests itself in a many-body state. Our experiments demonstrate that the exciton in monolayer semiconductors is only a single particle boson close to charge neutrality. We find that away from charge neutrality it smoothly transitions into polaronic states with a distinct spin-valley flavor that is defined by the LL quantized spin and valley texture.

Published
2021
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10. Ultra-Sensitive Extinction Measurements of Optically Active Defects in Monolayer MoS$_2$

Author

Sigger, Florian, Amersdorffer, Ines, Hötger, Alexander, Nutz, Manuel, Kiemle, Jonas, Taniguchi, Takashi, Watanabe, Kenji, Förg, Michael, Noe, Jonathan, Finley, Jonathan J., Högele, Alexander, Holleitner, Alexander W., Hümmer, Thomas, Hunger, David, and Kastl, Christoph

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We utilize cavity-enhanced extinction spectroscopy to directly quantify the optical absorption of defects in MoS$_2$ generated by helium ion bombardment. We achieve hyperspectral imaging of specific defect patterns with a detection limit below 0.01% extinction, corresponding to a detectable defect density below $10^{11}$ cm$^{-2}$. The corresponding spectra reveal a broad sub-gap absorption, being consistent with theoretical predictions related to sulfur vacancy-bound excitons in MoS$_2$. Our results highlight cavity-enhanced extinction spectroscopy as efficient means for the detection of optical transitions in nanoscale thin films with weak absorption, applicable to a broad range of materials., Comment: 17 pages main manuscript, 7 pages supporting information

Published
2022
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11. Combining experiments on luminescent centres in hexagonal boron nitride with the polaron model and ab initio methods towards the identification of their microscopic origin

Author

Fischer, Moritz, Sajid, Ali, Iles-Smith, Jake, Hötger, Alexander, Miakota, Denys I., Svendsen, Mark. K., Kastl, Christoph, Canulescu, Stela, Xiao, Sanshui, Wubs, Martijn, Thygesen, Kristian S., Holleitner, Alexander W., and Stenger, Nicolas

Subjects
Condensed Matter - Materials Science, Physics - Optics
Abstract

The two-dimensional material hexagonal boron nitride (hBN) hosts luminescent centres with emission energies of 2 eV which exhibit pronounced phonon sidebands. We investigate the microscopic origin of these luminescent centres by combining ab initio calculations with non-perturbative open quantum system theory to study the emission and absorption properties of 26 defect transitions. Comparing the calculated line shapes with experiments we narrow down the microscopic origin to three carbon-based defects: $\mathrm{C_2C_B}$, $\mathrm{C_2C_N}$, and $\mathrm{V_NC_B}$. The theoretical method developed enables us to calculate so-called photoluminescence excitation (PLE) maps, which show excellent agreement with our experiments. The latter resolves higher-order phonon transitions, thereby confirming both the vibronic structure of the optical transition and the phonon-assisted excitation mechanism with a phonon energy 170 meV. We believe that the presented experiments and polaron-based method accurately describe luminescent centres in hBN and will help to identify their microscopic origin.

Published
2022

13. Spin-defect characteristics of single sulfur vacancies in monolayer $\text{MoS}_2$

Author

Hötger, Alexander, Amit, Tomer, Klein, Julian, Barthelmi, Katja, Pelini, Thomas, Delhomme, Alex, Rey, Sergio, Potemski, Marek, Faugeras, Clément, Cohen, Galit, Hernangómez-Pérez, Daniel, Taniguchi, Takashi, Watanabe, Kenji, Kastl, Christoph, Finley, Jonathan J., Refaely-Abramson, Sivan, Holleitner, Alexander W., and Stier, Andreas V.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Single spin defects in 2D transition-metal dichalcogenides are natural spin-photon interfaces for quantum applications. Here we report high-field magneto-photoluminescence spectroscopy from three emission lines (Q1, Q2 and Q*) of He-ion induced sulfur vacancies in monolayer $\text{MoS}_2$. Analysis of the asymmetric PL lineshapes in combination with the diamagnetic shift of Q1 and Q2 yields a consistent picture of localized emitters with a wavefunction extent of $\sim$ 3.5 nm. The distinct valley-Zeeman splitting in out-of-plane $B$-fields and the brightening of dark states through in-plane $B$-fields necessitates spin-valley selectivity of the defect states and lifted spin-degeneracy at zero field. Comparing our results to ab-initio calculations identifies the nature of Q1 and Q2 and suggests that Q* is the emission from a chemically functionalized defect. Analysis of the optical degree of circular polarization reveals that the Fermi level is a parameter that enables the tunability of the emitter. These results show that defects in 2D semiconductors may be utilized for quantum technologies.

Published
2022
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14. High quality nanocavities through multimodal confinement of hyperbolic polaritons in hexagonal boron nitride

Author

Sheinfux, Hanan Herzig, Orsini, Lorenzo, Jung, Minwoo, Torre, Iacopo, Ceccanti, Matteo, Marconi, Simone, Maniyara, Rinu, Ruiz, David Barcons, Hötger, Alexander, Bertini, Ricardo, Castilla, Sebastián, Hesp, Niels C. H., Janzen, Eli, Holleitner, Alexander, Pruneri, Valerio, Edgar, James H., Shvets, Gennady, and Koppens, Frank H. L.

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A conventional optical cavity supports modes which are confined because they are unable to leak out of the cavity. Bound state in continuum (BIC) cavities are an unconventional alternative, where light can leak out, but is confined by multimodal destructive interference. BICs are a general wave phenomenon, of particular interest to optics, but BICs and multimodal interference have never been demonstrated at the nanoscale. Here, we demonstrate the first nanophotonic cavities based on BIC-like multimodal interference. This novel confinement mechanism for deep sub-wavelength light shows orders of magnitude improvement in several confinement metrics. Specifically, we obtain cavity volumes below 100x100x3nm^3 with quality factors about 100, with extreme cases having 23x23x3nm^3 volumes or quality factors above 400. Key to our approach, is the use of pristine crystalline hyperbolic dispersion media (HyM) which can support large momentum excitations with relatively low losses. Making a HyM cavity is complicated by the additional modes that appear in a HyM. Ordinarily, these serve as additional channels for leakage, reducing cavity performance. But, in our experiments, we find a BIC-like cavity confinement enhancement effect, which is intimately related to the ray-like nature of HyM excitations. In fact, the quality factors of our cavities exceed the maximum that is possible in the absence of higher order modes. The alliance of HyM with BICs in our work yields a radically novel way to confine light and is expected to have far reaching consequences wherever strong optical confinement is utilized, from ultra-strong light-matter interactions, to mid-IR nonlinear optics and a range of sensing applications.

Published
2022
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15. Trions in MoS$_2$ are quantum superpositions of intra- and intervalley spin states

Author

Klein, Julian, Florian, Matthias, Hötger, Alexander, Steinhoff, Alexander, Delhomme, Alex, Taniguchi, Takashi, Watanabe, Kenji, Jahnke, Frank, Holleitner, Alexander W., Potemski, Marek, Faugeras, Clément, Stier, Andreas V., and Finley, Jonathan J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We report magneto-photoluminescence spectroscopy of gated MoS$_2$ monolayers in high magnetic fields to 28 T. At B = 0T and electron density $n_s\sim 10^{12}cm^-2$, we observe three trion resonances that cannot be explained within a single-particle picture. Employing ab initio calculations that take into account three-particle correlation effects as well as local and non-local electron-hole exchange interaction, we identify those features as quantum superpositions of inter- and intravalley spin states. We experimentally investigate the mixed character of the trion wave function via the filling factor dependent valley Zeeman shift in positive and negative magnetic fields. Our results highlight the importance of exchange interactions for exciton physics in monolayer MoS$_2$ and provide new insights into the microscopic understanding of trion physics in 2D multi-valley semiconductors for low excess carrier densities., Comment: Main manuscript: 7 pages, 3 figures ; Supplemental material: 16 pages, 4 figures

Published
2021
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18. Nonlocal Exciton-Photon Interactions in Hybrid High-Q Beam Nanocavities with Encapsulated MoS$_2$ Monolayers

Author

Qian, Chenjiang, Villafañe, Viviana, Soubelet, Pedro, Hötger, Alexander, Taniguchi, Takashi, Watanabe, Kenji, Wilson, Nathan P., Stier, Andreas V., Holleitner, Alexander W., and Finley, Jonathan J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Atomically thin semiconductors can be readily integrated into a wide range of nanophotonic architectures for applications in quantum photonics and novel optoelectronic devices. We report the observation of nonlocal interactions of \textit{free} trions in pristine hBN/MoS$_2$/hBN heterostructures coupled to single mode (Q $>10^4$) quasi 0D nanocavities. The high excitonic and photonic quality of the interaction system stems from our integrated nanofabrication approach simultaneously with the hBN encapsulation and the maximized local cavity field amplitude within the MoS$_2$ monolayer. We observe a nonmonotonic temperature dependence of the cavity-trion interaction strength, consistent with the nonlocal light-matter interactions in which the extent of the center-of-mass wavefunction is comparable to the cavity mode volume in space. Our approach can be generalized to other optically active 2D materials, opening the way towards harnessing novel light-matter interaction regimes for applications in quantum photonics.

Published
2021
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19. Controlling exciton many-body states by the electric-field effect in monolayer MoS$_2$

Author

Klein, Julian, Hötger, Alexander, Florian, Matthias, Steinhoff, Alexander, Delhomme, Alex, Taniguchi, Takashi, Watanabe, Kenji, Jahnke, Frank, Holleitner, Alexander W., Potemski, Marek, Faugeras, Clément, Finley, Jonathan J., and Stier, Andreas V.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

We report magneto-optical spectroscopy of gated monolayer MoS$_2$ in high magnetic fields up to 28T and obtain new insights on the many-body interaction of neutral and charged excitons with the resident charges of distinct spin and valley texture. For neutral excitons at low electron doping, we observe a nonlinear valley Zeeman shift due to dipolar spin-interactions that depends sensitively on the local carrier concentration. As the Fermi energy increases to dominate over the other relevant energy scales in the system, the magneto-optical response depends on the occupation of the fully spin-polarized Landau levels in both $K/K^{\prime}$ valleys. This manifests itself in a many-body state. Our experiments demonstrate that the exciton in monolayer semiconductors is only a single particle boson close to charge neutrality. We find that away from charge neutrality it smoothly transitions into polaronic states with a distinct spin-valley flavour that is defined by the Landau level quantized spin and valley texture., Comment: Main manuscript: 7 pages, 4 figures ; Supplemental material: 20 pages, 8 figures

Published
2020
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22. Photovoltage and Photocurrent Absorption Spectra of Sulfur Vacancies Locally Patterned in Monolayer MoS2

Author

Hötger, Alexander, primary, Männer, Wolfgang, additional, Amit, Tomer, additional, Hernangómez-Pérez, Daniel, additional, Taniguchi, Takashi, additional, Watanabe, Kenji, additional, Wurstbauer, Ursula, additional, Finley, Jonathan J., additional, Refaely-Abramson, Sivan, additional, Kastl, Christoph, additional, and Holleitner, Alexander W., additional

Published
2023
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24. Ultra-Sensitive Extinction Measurements of Optically Active Defects in Monolayer MoS2

Author

Florian Sigger, Ines Amersdorffer, Alexander Hötger, Manuel Nutz, Jonas Kiemle, Takashi Taniguchi, Kenji Watanabe, Michael Förg, Jonathan Noe, Jonathan J. Finley, Alexander Högele, Alexander W. Holleitner, Thomas Hümmer, David Hunger, and Christoph Kastl

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Physics, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, ddc:530, General Materials Science, Physical and Theoretical Chemistry
Abstract

We utilize cavity-enhanced extinction spectroscopy to directly quantify the optical absorption of defects in MoS$_2$ generated by helium ion bombardment. We achieve hyperspectral imaging of specific defect patterns with a detection limit below 0.01% extinction, corresponding to a detectable defect density below $10^{11}$ cm$^{-2}$. The corresponding spectra reveal a broad sub-gap absorption, being consistent with theoretical predictions related to sulfur vacancy-bound excitons in MoS$_2$. Our results highlight cavity-enhanced extinction spectroscopy as efficient means for the detection of optical transitions in nanoscale thin films with weak absorption, applicable to a broad range of materials., Comment: 17 pages main manuscript, 7 pages supporting information

Published
2022

27. Combining experiments on luminescent centres in hexagonal boron nitride with the polaron model and ab initio methods towards the identification of their microscopic origin

Author

Fischer, Moritz, Sajid, Ali, Iles-Smith, Jake, Hötger, Alexander, Miakota, Denys I, Svendsen, Mark K, Kastl, Christoph, Canulescu, Stela, Xiao, Sanshui, Wubs, Martijn, Thygesen, Kristian S, Holleitner, Alexander W, Stenger, Nicolas, Fischer, Moritz, Sajid, Ali, Iles-Smith, Jake, Hötger, Alexander, Miakota, Denys I, Svendsen, Mark K, Kastl, Christoph, Canulescu, Stela, Xiao, Sanshui, Wubs, Martijn, Thygesen, Kristian S, Holleitner, Alexander W, and Stenger, Nicolas

Abstract

The two-dimensional material hexagonal boron nitride (hBN) hosts luminescent centres with emission energies of ∼2 eV which exhibit pronounced phonon sidebands. We investigate the microscopic origin of these luminescent centres by combining ab initio calculations with non-perturbative open quantum system theory to study the emission and absorption properties of 26 defect transitions. Comparing the calculated line shapes with experiments we narrow down the microscopic origin to three carbon-based defects: C2CB, C2CN, and VNCB. The theoretical method developed enables us to calculate so-called photoluminescence excitation (PLE) maps, which show excellent agreement with our experiments. The latter resolves higher-order phonon transitions, thereby confirming both the vibronic structure of the optical transition and the phonon-assisted excitation mechanism with a phonon energy ∼170 meV. We believe that the presented experiments and polaron-based method accurately describe luminescent centres in hBN and will help to identify their microscopic origin.

Published
2023

28. Combining experiments on luminescent centres in hexagonal boron nitride with the polaron model and ab initio methods towards the identification of their microscopic origin

Author

Fischer, Moritz, primary, Sajid, Ali, additional, Iles-Smith, Jake, additional, Hötger, Alexander, additional, Miakota, Denys I., additional, Svendsen, Mark K., additional, Kastl, Christoph, additional, Canulescu, Stela, additional, Xiao, Sanshui, additional, Wubs, Martijn, additional, Thygesen, Kristian S., additional, Holleitner, Alexander W., additional, and Stenger, Nicolas, additional

Published
2023
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30. Spectral X-ray dark-field signal characterization from dual-energy projection phase-stepping data with a Talbot-Lau interferometer

Author

Kirsten Taphorn, Lennard Kaster, Thorsten Sellerer, Alexander Hötger, and Julia Herzen

Subjects
Multidisciplinary
Abstract

Material-selective analysis of spectral X-ray imaging data requires prior knowledge of the energy dependence of the observed signal. Contrary to conventional X-ray imaging, where the material-specific attenuation coefficient is usually precisely known, the linear diffusion coefficient of the X-ray dark-field contrast does not only depend on the material and its microstructure, but also on the setup geometry and is difficult to access. Here, we present an optimization approach to retrieve the energy dependence of the X-ray dark-field signal quantitatively on the example of closed-cell foams from projection data without the need for additional hardware to a standard grating-based X-ray dark-field imaging setup. A model for the visibility is used to determine the linear diffusion coefficient with a least-squares optimization. The comparison of the results to spectrometer measurements of the linear diffusion coefficient suggests the proposed method to provide a good estimate for the energydependent dark-field signal.

Published
2023

31. Achtsamkeit meets Krankenhaus? Zwischenergebnisse einer randomisierten kontrollierten Studie zur Stressreduzierung bei Pflegefachpersonen im akut-stationären Setting durch eine digital gestützte Achtsamkeitsintervention

Author

Rathmer, I, Schönfeld, S, Onescheit, M, Hötger, C, Wehling, A, and Esch, T

Subjects
ddc: 610, Medicine and health
Abstract

Hintergrund und Stand (inter)nationaler Forschung: Die Covid-19-Pandemie führte bei den bereits belasteten Pflegefachpersonen zu erhöhten Stressniveaus und erschwerte die Integration von stressreduzierenden Präsenz-Interventionen. Digitale Achtsamkeits-und Meditations-Interventionen (d-MI) [zum vollständigen Text gelangen Sie über die oben angegebene URL]

Published
2022
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33. Ultra-Sensitive Extinction Measurements of Optically Active Defects in Monolayer MoS2

Author

Sigger, Florian, primary, Amersdorffer, Ines, additional, Hötger, Alexander, additional, Nutz, Manuel, additional, Kiemle, Jonas, additional, Taniguchi, Takashi, additional, Watanabe, Kenji, additional, Förg, Michael, additional, Noe, Jonathan, additional, Finley, Jonathan J., additional, Högele, Alexander, additional, Holleitner, Alexander W., additional, Hümmer, Thomas, additional, Hunger, David, additional, and Kastl, Christoph, additional

Published
2022
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34. [OpenNotes in mental health? Contra]

Author

Cosima, Hötger and Isabella, Heuser-Collier

Subjects
Mental Health Services, Physician-Patient Relations, Mental Health, Humans, Electronic Health Records
Published
2022

37. Spin-defect characteristics of single sulfur vacancies in monolayer $\text{MoS}_2$

Author

A. Hötger, T. Amit, J. Klein, K. Barthelmi, T. Pelini, A. Delhomme, S. Rey, M. Potemski, C. Faugeras, G. Cohen, D. Hernangómez-Pérez, T. Taniguchi, K. Watanabe, C. Kastl, J. J. Finley, S. Refaely-Abramson, A. W. Holleitner, and A. V. Stier

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Mechanics of Materials, Mechanical Engineering, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), FOS: Physical sciences, General Materials Science, General Chemistry, Condensed Matter Physics
Abstract

Single spin-defects in 2D transition-metal dichalcogenides are natural spin-photon interfaces for quantum applications. Here we report high-field magneto-photoluminescence spectroscopy from three emission lines (Q1, Q2, and Q*) of He-ion induced sulfur vacancies in monolayer MoS2. Analysis of the asymmetric PL lineshapes in combination with the diamagnetic shift of Q1 and Q2 yields a consistent picture of localized emitters with a wave function extent of ~3.5 nm. The distinct valley-Zeeman splitting in out-of-plane B-fields and the brightening of dark states through in-plane B-fields necessitates spin-valley selectivity of the defect states and lifted spin-degeneracy at zero field. Comparing our results to ab initio calculations identifies the nature of Q1 and Q2 and suggests that Q* is the emission from a chemically functionalized defect. Analysis of the optical degree of circular polarization reveals that the Fermi level is a parameter that enables the tunability of the emitter. These results show that defects in 2D semiconductors may be utilized for quantum technologies.

Published
2022

40. Low-temperature spectroscopy of single-photon emitters in irradiation-engineered hexagonal boron nitride

Author

Fischer, Moritz, Sajid, Ali, Hötger, Alexander, Thygesen, Kristian Sommer, Xiao, Sanshui, Wubs, Martijn, Holleitner, Alexander, Leitherer-Stenger, Nicolas, Fischer, Moritz, Sajid, Ali, Hötger, Alexander, Thygesen, Kristian Sommer, Xiao, Sanshui, Wubs, Martijn, Holleitner, Alexander, and Leitherer-Stenger, Nicolas

Abstract

To identify the microscopic origin of single-photon emitters in hexagonal boron nitride, we perform low-temperature spectroscopy. We observe strong photoluminescence at two different excitation lasers that hint at a phonon-assisted excitation scheme.

Published
2022

42. Spin-defect characteristics of single sulfur vacancies in monolayer MoS2.

Author

Hötger, A., Amit, T., Klein, J., Barthelmi, K., Pelini, T., Delhomme, A., Rey, S., Potemski, M., Faugeras, C., Cohen, G., Hernangómez-Pérez, D., Taniguchi, T., Watanabe, K., Kastl, C., Finley, J. J., Refaely-Abramson, S., Holleitner, A. W., and Stier, A. V.

Subjects
AB-initio calculations, SULFUR, MONOMOLECULAR films, CIRCULAR polarization, FERMI level
Abstract

Single spin-defects in 2D transition-metal dichalcogenides are natural spin-photon interfaces for quantum applications. Here we report high-field magneto-photoluminescence spectroscopy from three emission lines (Q1, Q2, and Q*) of He-ion induced sulfur vacancies in monolayer MoS2. Analysis of the asymmetric PL lineshapes in combination with the diamagnetic shift of Q1 and Q2 yields a consistent picture of localized emitters with a wave function extent of ~3.5 nm. The distinct valley-Zeeman splitting in out-of-plane B-fields and the brightening of dark states through in-plane B-fields necessitates spin-valley selectivity of the defect states and lifted spin-degeneracy at zero field. Comparing our results to ab initio calculations identifies the nature of Q1 and Q2 and suggests that Q* is the emission from a chemically functionalized defect. Analysis of the optical degree of circular polarization reveals that the Fermi level is a parameter that enables the tunability of the emitter. These results show that defects in 2D semiconductors may be utilized for quantum technologies. [ABSTRACT FROM AUTHOR]

Published
2023
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44. OpenNotes in Mental Health? Kontra

Author

Cosima Hötger and Isabella Heuser-Collier

Subjects
Psychiatry and Mental health, Neurology, Neurology (clinical), General Medicine
Published
2022

46. On-demand generation of optically active defects in monolayer WS2 by a focused helium ion beam

Author

A. Micevic, N. Pettinger, A. Hötger, L. Sigl, M. Florian, T. Taniguchi, K. Watanabe, K. Müller, J. J. Finley, C. Kastl, and A. W. Holleitner

Subjects
Physics and Astronomy (miscellaneous)
Abstract

We demonstrate that optically active emitters can be locally generated by focusing a He-ion beam onto monolayer WS2 encapsulated in hBN. The emitters show a low-temperature photoluminescence spectrum, which is well described by an independent Boson model for localized emitters. Consistently, the photoluminescence intensity of the emitters saturates at low excitation intensities, which is distinct to the photoluminescence of excitonic transitions in the investigated WS2 monolayers. The demonstrated method allows us to position defect emitters in WS2 monolayers on demand. A statistical analysis suggests the generation yield of individual emitters to be as high as 11% at the highest investigated He-ion doses.

Published
2022

47. Nonlocal Exciton-Photon Interactions in Hybrid High-Q Beam Nanocavities with Encapsulated MoS_{2} Monolayers

Author

Chenjiang, Qian, Viviana, Villafañe, Pedro, Soubelet, Alexander, Hötger, Takashi, Taniguchi, Kenji, Watanabe, Nathan P, Wilson, Andreas V, Stier, Alexander W, Holleitner, and Jonathan J, Finley

Abstract

Atomically thin semiconductors can be readily integrated into a wide range of nanophotonic architectures for applications in quantum photonics and novel optoelectronic devices. We report the observation of nonlocal interactions of "free" trions in pristine hBN/MoS_{2}/hBN heterostructures coupled to single mode (Q10^{4}) quasi 0D nanocavities. The high excitonic and photonic quality of the interaction system stems from our integrated nanofabrication approach simultaneously with the hBN encapsulation and the maximized local cavity field amplitude within the MoS_{2} monolayer. We observe a nonmonotonic temperature dependence of the cavity-trion interaction strength, consistent with the nonlocal light-matter interactions in which the extent of the center-of-mass (c.m.) wave function is comparable to the cavity mode volume in space. Our approach can be generalized to other optically active 2D materials, opening the way toward harnessing novel light-matter interaction regimes for applications in quantum photonics.

Published
2021

50. Modular Waste Heat Recovery System with Electric Power Output

Author

Hannes Marlok, Andreas Pfeifer, Michael Bucher, and Michael Hötger

Subjects
business.industry, Environmental science, Electric power, General Medicine, Modular design, business, Process engineering, Waste heat recovery unit
Published
2019

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