ArbeitsgruppenAG Ding
Publikationen

Publikationen der AG Ding


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2013


Ding, F., Stöferle, T., Mai, L., Knoll, A., & Mahrt, R. F. (2013). Vertical microcavities with high Q and strong lateral mode confinement. Physical Review B - Condensed Matter and Materials Physics, 87(16), [161116]. doi.org/10.1103/PhysRevB.87.161116, doi.org/10.1103/PHYSREVB.87.161116

Huo, Y. H., Witek, B. J., Kumar, S., Cardenas, J. R., Zhang, J. X., Akopian, N., Singh, R., Zallo, E., Grifone, R., Kriegner, D., Trotta, R., Ding, F., Stangl, J., Zwiller, V., Bester, G., Rastelli, A., & Schmidt, O. G. (2013). A light-hole exciton in a quantum dot. Nature Physics, 10(1), 46-51. doi.org/10.1038/nphys2799

Mai, L., Ding, F., Stöferle, T., Knoll, A., Jan Offrein, B., & Mahrt, R. F. (2013). Integrated vertical microcavity using a nano-scale deformation for strong lateral confinement. Applied Physics Letters, 103(24), [243305]. doi.org/10.1063/1.4847655

Zhang, J., Ding, F., Zallo, E., Trotta, R., Höfer, B., Han, L., Kumar, S., Huo, Y., Rastelli, A., & Schmidt, O. G. (2013). A Nanomembrane-Based Wavelength-Tunable High-Speed Single-Photon-Emitting Diode. Nano Letters, 13(12), 5808-5813. doi.org/10.1021/nl402307q


2012


Rastelli, A., Ding, F., Plumhof, J. D., Kumar, S., Trotta, R., Deneke, C., Malachias, A., Atkinson, P., Zallo, E., Zander, T., Herklotz, A., Singh, R., Křápek, V., Schröter, J. R., Kiravittaya, S., Benyoucef, M., Hafenbrak, R., Jöns, K. D., Thurmer, D. J., ... Schmidt, O. G. (2012). Controlling quantum dot emission by integration of semiconductor nanomembranes onto piezoelectric actuators. Physica Status Solidi (B) Basic Research, 249(4), 687-696. doi.org/10.1002/pssb.201100775

Shen, C., Huang, G., Cheng, Y., Cao, R., Ding, F., Schwingenschlögl, U., & Mei, Y. (2012). Thinning and functionalization of few-layer graphene sheets by CF4 plasma treatment. Nanoscale Research Letters, 7, [268]. doi.org/10.1186/1556-276X-7-268


2011


Ding, F., Li, B., Akopian, N., Perinetti, U., Chen, Y. H., Peeters, F. M., Rastelli, A., Zwiller, V., & Schmidt, O. G. (2011). Single Neutral Excitons Confined in AsBr3 In Situ Etched In GaAs Quantum Rings. Journal of Nanoelectronics and Optoelectronics, 6(1), 51-57. doi.org/10.1166/jno.2011.1132, doi.org/10.1166/JNO.2011.1132

Jöns, K. D., Hafenbrak, R., Singh, R., Ding, F., Plumhof, J. D., Rastelli, A., Schmidt, O. G., Bester, G., & Michler, P. (2011). Dependence of the Redshifted and Blueshifted Photoluminescence Spectra of Single InxGa1-xAs/GaAs Quantum Dots on the Applied Uniaxial Stress. Physical Review Letters, 107(21), [217402]. doi.org/10.1103/PhysRevLett.107.217402

Plumhof, J. D., Křápek, V., Ding, F., Jöns, K. D., Hafenbrak, R., Klenovský, P., Herklotz, A., Dörr, K., Michler, P., Rastelli, A., & Schmidt, O. G. (2011). Strain-induced anticrossing of bright exciton levels in single self-assembled GaAs/AlxGa1-xAs and InxGa1-xAs/GaAs quantum dots. Physical Review B - Condensed Matter and Materials Physics, 83(12), [121302]. doi.org/10.1103/PhysRevB.83.121302


2010


Ding, F., Akopian, N., Li, B., Perinetti, U., Govorov, A., Peeters, F. M., Bof Bufon, C. C., Deneke, C., Chen, Y. H., Rastelli, A., Schmidt, O. G., & Zwiller, V. (2010). Gate controlled Aharonov-Bohm-type oscillations from single neutral excitons in quantum rings. Physical Review B - Condensed Matter and Materials Physics, 82(7), [075309]. doi.org/10.1103/PhysRevB.82.075309

Ding, F., Ji, H., Chen, Y., Herklotz, A., Dörr, K., Mei, Y., Rastelli, A., & Schmidt, O. G. (2010). Stretchable Graphene: A Close Look at Fundamental Parameters through Biaxial Straining. Nano Letters, 10(9), 3453-3458. doi.org/10.1021/nl101533x

Ding, F., Singh, R., Plumhof, J. D., Zander, T., Křápek, V., Chen, Y. H., Benyoucef, M., Zwiller, V., Dörr, K., Bester, G., Rastelli, A., & Schmidt, O. G. (2010). Tuning the Exciton Binding Energies in Single Self-Assembled InGaAs/GaAs Quantum Dots by Piezoelectric-Induced Biaxial Stress. Physical Review Letters, 104(6), [067405]. doi.org/10.1103/PhysRevLett.104.067405

Huang, G., Quiñones, V. A. B., Ding, F., Kiravittaya, S., Mei, Y., & Schmidt, O. G. (2010). Rolled-Up Optical Microcavities with Subwavelength Wall Thicknesses for Enhanced Liquid Sensing Applications. ACS NANO, 4(6), 3123-3130. doi.org/10.1021/nn100456r


2009


Huang, G. S., Kiravittaya, S., Quinones, V. A. B., Ding, F., Benyoucef, M., Rastelli, A., Mei, Y. F., & Schmidt, O. G. (2009). Optical properties of rolled-up tubular microcavities from shaped nanomembranes. Applied physics letters. doi.org/10.1063/1.3111813

Lee, H. S., Rastelli, A., Benyoucef, M., Ding, F., Kim, T. W., Park, H. L., & Schmidt, O. G. (2009). Microphotoluminescence spectroscopy of single CdTe/ZnTe quantum dots grown on Si(001) substrates. NANOTECHNOLOGY. doi.org/10.1088/0957-4484/20/7/075705

Wang, L., Krapek, V., Ding, F., Horton, F., Schliwa, A., Bimberg, D., Rastelli, A., & Schmidt, O. G. (2009). Self-assembled quantum dots with tunable thickness of the wetting layer: Role of vertical confinement on interlevel spacing. Physical Review B. doi.org/10.1103/PHYSREVB.80.085309

Zander, T., Herklotz, A., Kiravittaya, S., Benyoucef, M., Ding, F., Atkinson, P., Kumar, S., Plumhof, J. D., Doerr, K., Rastelli, A., & Schmidt, O. G. (2009). Epitaxial quantum dots in stretchable optical microcavities. Optics express. doi.org/10.1364/OE.17.022452


2008


Mei, Y., Huang, G., Solovev, A. A., Urena, E. B., Moench, I., Ding, F., Reindl, T., Fu, R. K. Y., Chu, P. K., & Schmidt, O. G. (2008). Versatile Approach for Integrative and Functionalized Tubes by Strain Engineering of Nanomembranes on Polymers. Advanced materials. doi.org/10.1002/ADMA.200801589

Wang, L., Rastelli, A., Kiravittaya, S., Atkinson, P., Ding, F., Bufon, C. C. B., Hermannstaedter, C., Witzany, M., Beirne, G. J., Michler, P., & Schmidt, O. G. (2008). Towards deterministically controlled InGaAs/GaAs lateral quantum dot molecules. New journal of physics. doi.org/10.1088/1367-2630/10/4/045010

Zhao, C., Chen, Y. H., Xu, B., Tang, C. G., Wang, Z. G., & Ding, F. (2008). Study of the wetting layer of InAs∕GaAs nanorings grown by droplet epitaxy. Applied physics letters. doi.org/10.1063/1.2883931