Items where Division is "05 Faculty of Science > Departement Physik > Physik > Nanotechnologie Argovia (Poggio)"
Number of items at this level: 38. YesCadeddu, Davide and Munsch, Mathieu and Rossi, Nicola and Gerard, Jean-Michel and Claudon, Julien and Warburton, Richard J. and Poggio, Martino. (2017) Electric-Field Sensing with a Scanning Fiber-Coupled Quantum Dot. Physical Review Applied, 8 (3). 031002. Munsch, Mathieu and Kuhlmann, Andreas V. and Cadeddu, Davide and Gerard, Jean-Michel and Claudon, Julien and Poggio, Martino and Warburton, Richard J.. (2017) Resonant driving of a single photon emitter embedded in a mechanical oscillator. Nature Communications, 8. p. 76. Wyss, M. and Mehlin, A. and Gross, B. and Buchter, A. and Farhan, A. and Buzzi, M. and Kleibert, A. and Tutuncuoglu, G. and Heimbach, F. and Fontcuberta i Morral, A. and Grundler, D. and Poggio, M.. (2017) Imaging magnetic vortex configurations in ferromagnetic nanotubes. Physical Review B, 96 (2). 024423. Rossi, Nicola and Braakman, Floris and Cadeddu, Davide and Vasyukov, Denis and Tütüncüoglu, Gözde and Fontcuberta i Morral, Anna and Poggio, Martino. (2016) Vectorial scanning force microscopy using a nanowire sensor. Nature Nanotechnology. p. 6. Cadeddu, D. and Braakman, F. R. and Tütüncüoglu, G. and Matteini, F. and Rüffer, D. and Fontcuberta i Morral, A. and Poggio, M.. (2016) Time-resolved nonlinear coupling between orthogonal flexural modes of a pristine GaAs nanowire. Nano Letters, 16 (2). pp. 926-931. Cadeddu, D. and Teissier, J. and Braakman, F. R. and Gregersen, N. and Stepanov, P. and Gérard, J.-M. and Claudon, J. and Warburton, R. J. and Poggio, M. and Munsch, M.. (2016) A fiber-coupled quantum-dot on a photonic tip. Applied physics letters, 108 (1). 011112. Gross, B. and Weber, D. P. and Rüffer, D. and Buchter, A. and Heimbach, F. and Fontcuberta i Morral, A. and Grundler, D. and Poggio, M.. (2016) Dynamic cantilever magnetometry of individual CoFeB nanotubes. Physical Review B, 93 (6). 064409. Wüst, G. and Munsch, M. and Maier, F. and Kuhlmann, A. V. and Ludwig, A. and Wieck, A. D. and Loss, D. and Poggio, M. and Warburton, R. J.. (2016) Role of the electron spin in determining the coherence of the nuclear spins in a quantum dot. Nature nanotechnology, 11. pp. 885-889. Buchter, A. and Wölbing, R. and Wyss, M. and Kieler, O. F. and Weimann, T. and Kohlmann, J. and Zorin, A. B. and Rüffer, D. and Matteini, F. and Tütüncüoglu, G. and Heimbach, F. and Kleibert, A. and Fontcuberta i Morral, A. and Grundler, D. and Kleiner, R. and Koelle, D. and Poggio, M.. (2015) Magnetization reversal of an individual exchange-biased permalloy nanotube. Physical Review B, 92 (21). p. 214432. Mehlin, A. and Xue, F. and Liang, D. and Du, H. F. and Stolt, M. J. and Jin, S. and Tian, M. L. and Poggio, M.. (2015) Stabilized Skyrmion Phase Detected in MnSi Nanowires by Dynamic Cantilever Magnetometry. Nano Letters, Vol. 15, H. 7. pp. 4839-4844. Tao, Ye and Navaretti, Paolo and Hauert, R. and Grob, Urs and Poggio, Martino and Degen, Christian. (2015) Permanent reduction of dissipation in nanomechanical Si resonators by chemical surface protection. Nanotechnology, 26 (46). p. 465501. Bossoni, Lucia and Carretta, Pietro and Poggio, Martino. (2014) Vortex lattice melting of a NbSe2 single grain probed by ultrasensitive cantilever magnetometry. Applied physics letters, Vol. 104 , 182601. Braakman, F. R. and Cadeddu, D. and Tütüncüoglu, G. and Matteini, F. and Rüffer, D. and Morral, A. Fontcuberta i and Poggio, M.. (2014) Nonlinear motion and mechanical mixing in as-grown GaAs nanowires. Applied physics letters, Vol. 105, H. 17 , 173111. Herzog, B. E. and Cadeddu, D. and Xue, F. and Peddibhotla, P. and Poggio, M.. (2014) Boundary between the thermal and statistical polarization regimes in a nuclear spin ensemble. Applied physics letters, Vol. 105, H. 4 , 043112. Montinaro, Michele and Wüst, Gunter and Munsch, Mathieu and Fontana, Yannik and Russo-Averchi, Eleonora and Heiss, Martin and Fontcuberta I. Morral, Anna and Warburton, Richard J. and Poggio, Martino. (2014) Quantum Dot Opto-Mechanics in a Fully Self-Assembled Nanowire. Nano Letters, Vol. 14, H. 8. pp. 4454-4460. Munsch, Mathieu and Wüst, Gunter and Kuhlmann, Andreas V. and Xue, Fei and Ludwig, Arne and Reuter, Dirk and Wieck, Andreas D. and Poggio, Martino and Warburton, Richard J.. (2014) Manipulation of the nuclear spin ensemble in a quantum dot with chirped magnetic resonance pulses. Nature nanotechnology, Vol. 9, H. 9. pp. 671-675. Treutlein, Philipp and Genes, Claudiu and Hammerer, Klemens and Poggio, Martino and Rabl, Peter. (2014) Hybrid mechanical systems. In: Cavity optomechanics : nano- and micromechanical resonators interacting with light. Berlin, pp. 327-351. A. Buchter, J. Nagel and D. Rüffer, F. Xue and D. P. Weber, O. F. Kieler and T. Weimann, J. Kohlmann and A. B. Zorin, E. Russo-Averchi and R. Huber, P. Berberich and A. Fontcuberta i Morral, M. Kemmler and R. Kleiner, D. Koelle and Grundler, D. and Poggio, M.. (2013) Reversal mechanism of an individual Ni nanotube simultaneously studied by torque and SQUID magnetometry. Physical review letters, Vol. 111, H. 6 , 067202. Kuhlmann, Andreas V. and Houel, Julien and Ludwig, Arne and Greuter, Lukas and Reuter, Dirk and Wieck, Andreas D. and Poggio, Martino and Warburton, Richard J.. (2013) Charge noise and spin noise in a semiconductor quantum device. Nature physics, Vol. 9 , S. 570–575. Nagel, J. and Buchter, A. and Xue, F. and Kieler, O. F. and Weimann, T. and Kohlmann, J. and Zorin, A. B. and Rüffer, D. and Russo-Averchi, E. and Huber, R. and Berberich, P. and Fontcuberta i Morral, A. and Grundler, D. and Kleiner, R. and Koelle, D. and Poggio, M. and Kemmler, M.. (2013) Nanoscale multifunctional sensor formed by a Ni nanotube and a scanning Nb nanoSQUID. Physical Review B, Vol. 88 , 064425. Peddbhotla, P. and Xue, F. and Hauge, H. I. T. and Assali, S. and Bakkers, E. P. A. M. and Poggio, M.. (2013) Harnessing nuclear spin polarization fluctuations in a semiconductor nanowire. Nature physics, Vol. 9 , S. 631–635. Montinaro, M. and Mehlin, A. and Solanki, H. S. and Peddibhotla, P. and Mack, S. and Awschalom, D. D. and Poggio, M.. (2012) Feedback cooling of cantilever motion using a quantum point contact transducer. Applied physics letters, Vol. 101 , 133104. Poggio, M. and Degen, C. L.. (2012) Magnetic resonance force microscopy. In: Encyclopedia of Nanotechnology. Berlin, pp. 1256-1264. Weber, D. P. and Rüffer, D. and Buchter, A. and Xue, F. and Russo-Averchi, E. and Huber, R. and Berberich, P. and Arbiol, J. and Fontcuberta i Morral, A. and Grundler, D. and Poggio, M.. (2012) Cantilever magnetometry of individual Ni nanotubes. Nano Letters, Vol. 12, H. 12. pp. 6139-6144. Xue, F. and Peddibhotla, P. and Montinaro, M. and Weber, D. P. and Poggio, M.. (2011) A geometry for optimizing nanoscale magnetic resonance force microscopy. Applied physics letters, Vol. 98, H. 16 , 163103. Xue, F. and Weber, D. P. and Peddibhotla, P. and Poggio, M.. (2011) Measurement of statistical nuclear spin polarization in a nanoscale GaAs sample. Physical Review B, Vol. 84 , 205328. Oosterkamp, T. H. and Poggio, M. and Degen, C. L. and Mamin, H. J. and Rugar, D.. (2010) Frequency domain multiplexing of force signals with application to magnetic resonance force microscopy. Applied Physics Letters, 96 (8). 083107. Poggio, M. and Degen, C. L.. (2010) Force-detected nuclear magnetic resonance : recent advances and future challenges. Nanotechnology, Vol. 21 , 342001. Degen, C. L. and Poggio, M. and Mamin, H. J. and Rettner, C. T. and Rugar, D.. (2009) Nanoscale magnetic resonance imaging. Proceedings of the National Academy of Sciences, 106 (5). pp. 1313-1317. Mamin, H. J. and Oosterkamp, T. H. and Poggio, M. and Degen, C. L. and Rettner, C. T. and Rugar, D.. (2009) Isotope-Selective Detection and Imaging of Organic Nanolayers. Nano Letters, 9 (8). pp. 3020-3024. Poggio, M. and Mamin, H. J. and Degen, C. L. and Sherwood, M. H. and Rugar, D.. (2009) Nuclear Double Resonance between Statistical Spin Polarizations. Physical Review Letters, 102 (8). 087604. NoBaumann, Susanne. Investigation of the unusual magnetic properties of Fe and Co on MgO with high spatial, energy and temporal resolution. 2015, Doctoral Thesis, University of Basel, Faculty of Science. Buchter, Arne. Hybrid torque and SQUID magnetometry of individual magnetic nanotubes. 2015, Doctoral Thesis, University of Basel, Faculty of Science. Montinaro, Michele. Coupling of nanomechanical resonators to controllable quantum systems. 2014, Doctoral Thesis, University of Basel, Faculty of Science. Weber, Dennis Patrick. Dynamic cantilever magnetometry of individual ferromagnetic nanotubes. 2014, Doctoral Thesis, University of Basel, Faculty of Science. Eren, Baran. Effects of hydrogen plasma treatment on the electronic, optical, mechanical and chemical properties of Mo, Rh, Au, HOPG and Graphene. 2013, Doctoral Thesis, University of Basel, Faculty of Science. Peddibhotla, Phani Kumar. Magnetic resonance force microscopy : harnessing nuclear spin fluctuations. 2013, Doctoral Thesis, University of Basel, Faculty of Science. Poggio, M.. (2013) Sensing from the bottom up. Nature nanotechnology, Vol. 8. pp. 482-483. |