Browse by Basel Contributors ID
Jump to: Yes YesCaloz, Misael and Korzh, Boris and Timoney, Nuala and Weiss, Markus and Gariglio, Stefano and Warburton, Richard J. and Schönenberger, Christian and Renema, Jelmer and Zbinden, Hugo and Bussières, Felix. (2017) Optically probing the detection mechanism in a molybdenum silicide superconducting nanowire single-photon detector. Applied Physics Letters, 110 (8). 083106. Handschin, Clevin and Fülöp, Balint and Makk, Peter and Blanter, Sofya and Weiss, Markus and Watanabe, Kenji and Taniguchi, Takashi and Csonka, Szabolcs and Schönenberger, Christian. (2015) Point contacts in encapsulated graphene. Physical review applied, 107 (18). p. 183108. Rickhaus, Peter and Liu, Ming-Hao and Makk, Peter and Maurand, Romain and Hess, Samuel and Zihlmann, Simon and Weiss, Markus and Richter, Klaus and Schönenberger, Christian. (2015) Guiding of Electrons in a Few-Mode Ballistic Graphene Channel. Nano Letters, 15 (9). pp. 5819-5825. Rickhaus, Peter and Makk, Peter and Liu, Ming-Hao and Tovari, Endre and Weiss, Markus and Maurand, Romain and Richter, Klaus and Schönenberger, Christian. (2015) Snake trajectories in ultraclean graphene p-n junctions. Nature communications, 6. p. 6470. Liu, Ming-Hao and Rickhaus, Peter and Makk, Peter and Tovari, Endre and Maurand, Romain and Tkatschenko, Fedor and Weiss, Markus and Schönenberger, Christian and Richter, Klaus. (2015) Scalable Tight-Binding Model for Graphene. Physical review letters, 114 (3). 036601. Maurand, Romain and Rickhaus, Peter and Makk, Peter and Hess, Samuel and Tovari, Endre and Handschin, Clevin and Weiss, Markus and Schönenberger, Christian. (2014) Fabrication of ballistic suspended graphene with local-gating. Carbon, Vol. 79. pp. 486-492. Samm, J. and Gramich, J. and Baumgartner, A. and Weiss, M. and Schönenberger, C.. (2014) Optimized fabrication and characterization of carbon nanotube spin valves. Journal of applied physics, Vol. 115, H. 17 , 174309. Schindele, J. and Baumgartner, A. and Maurand, R. and Weiss, M. and Schönenberger, C.. (2014) Nonlocal spectroscopy of Andreev bound states. Physical review. B, Condensed matter and materials physics, Vol. 89, H. 4 , 045422. Jung, Minkyung and Schindele, Jens and Nau, Stefan and Weiss, Markus and Baumgartner, Andreas and Schönenberger, Christian. (2013) Ultraclean Single, Double, and Triple Carbon Nanotube Quantum Dots with Recessed Re Bottom Gates. Nano Letters, Vol. 13, H. 9 , S. 4522–4526. Fu, Wangyang and Nef, Cornelia and Tarasov, Alexey and Wipf, Mathias and Stoop, Ralph and Knopfmacher, Oren and Weiss, Markus and Calame, Michel and Shönenberger, Christian. (2013) High mobility graphene ion-sensitive field-effect transistors by noncovalent functionalization. Nanoscale, Vol. 5, H. 24. pp. 12104-12110. Rickhaus, Rickhaus and Maurand, Romain and Liu, Ming-Hao and Weiss, Markus and Richter, Klaus and Schönenberger, Christian. (2013) Ballistic interferences in suspended graphene. Nature communications, Vol. 4 , Article Nr. 2342. F. Freitag, M. Weiss and R. Maurand, J. Trbovic and Schönenberger, C.. (2012) Homogeneity of Bilayer Graphene. Solid state communications, Vol. 152, H. 22. pp. 2053-2057. Freitag, F. and Trbovic, J. and Weiss, M. and Schonenberger, C.. (2012) Spontaneously Gapped Ground State in Suspended Bilayer Graphene. Physical review letters, Vol. 108 , 076602. Rickhaus, P. and Weiss, M. and Marot, L. and Schonenberger, C.. (2012) Quantum Hall Effect in Graphene with Superconducting Electrodes. Nano Letters, Vol. 12, H. 4. pp. 1942-1945. Eichler, A. and Weiss, M. and Schonenberger, C.. (2011) Gate-tunable split Kondo effect in a carbon nanotube quantum dot. Nanotechnology, Vol. 22, H. 26 , 265201. Fu, W. Y. and Nef, C. and Knopfrnacher, O. and Tarasov, A. and Weiss, M. and Calame, M. and Schonenberger, C.. (2011) Graphene Transistors Are Insensitive to pH Changes in Solution. Nano Letters, Vol. 11, H. 9. pp. 3597-3600. Eichler, A. and Deblock, R. and Weiss, M. and Schönenberger, C. and Bouchiat, H. and Karrasch, C. and Meden, V.. (2009) Tuning the Josephson current in carbon nanotubes with the Kondo effect. Physical Review B, Vol. 79, H. 16 , 161407(R). |