publications

preprints

• “Modulations of work function and morphology caused by charge injection into a single MoS₂ nanotube”
  M. Remškar, J. Jelenc, N. Czepurnyi, M. Malok, L. Pirker, R. Schreiner, and A. K. Hüttel
  submitted for publication; arXiv:2401.05020 (PDF)
  
• “Minigap and Andreev bound states in ballistic graphene”
  L. Banszerus, F. Libisch, A. Ceruti, S. Blien, K. Watanabe, T. Taniguchi, A. K. Hüttel, B. Beschoten, F. Hassler, and C. Stampfer
  submitted for publication; arXiv:2011.11471 (PDF)
  

2023

• “Optomechanical coupling and damping of a carbon nanotube quantum dot”
  N. Hüttner, S. Blien, P. Steger, A. N. Loh, R. Graaf, and A. K. Hüttel
  Physical Review Applied 20, 064019 (2023); arXiv:2304.02748 (PDF)
  
• “Tuning the supercurrent distribution in parallel ballistic graphene Josephson junctions”
  P. Schmidt, L. Banszerus, B. Frohn, S. Blien, K. Watanabe, T. Taniguchi, A. K. Hüttel, B. Beschoten, F. Hassler, and C. Stampfer
  Physical Review Applied 20, 054049 (2023); arXiv:2310.12040 (PDF)
  
• “Stepwise fabrication and optimization of coplanar waveguide resonator hybrid devices”
  N. Kellner, N. Hüttner, M. Will, P. Hakonen, and A. K. Hüttel
  Physica Status Solidi B 260, 2300187 (2023); arXiv:2304.08997 (PDF)
  
• “Non-destructive low-temperature contacts to MoS₂ nanoribbon and nanotube quantum dots”
  R. T. K. Schock, J. Neuwald, W. Möckel, M. Kronseder, L. Pirker, M. Remškar, and A. K. Hüttel
  Advanced Materials 35, 2209333 (2023); arXiv:2209.15515 (PDF, supplementary information)
  

2022

• “Confinement related phenomena in MoS₂ tubular structures grown from vapour phase”
  M. Remskar, A. K. Hüttel, T. V. Shubina, A. Seabaugh, S. Fathipour, R. Lawrowski, and R. Schreiner
  Israel Journal of Chemistry 62, e202100100 (2022) (PDF)
  

2021

• “Hybride Nanoröhren”
  A. K. Hüttel
  Physik Journal 08/2021, 47 (2021)
  

2020

• “From Transparent Conduction to Coulomb Blockade at Fixed Hole Number”
  D. R. Schmid, P. L. Stiller, A. Dirnaichner, and A. K. Hüttel
  Physica Status Solidi B 257, 2000253 (2020); arXiv:2005.01183 (PDF, data)
  
• “Magnetic field control of the Franck-Condon coupling of few-electron quantum states”
  P. L. Stiller, A. Dirnaichner, D. R. Schmid, and A. K. Hüttel
  Physical Review B 102, 115408 (2020); arXiv:1812.02657 (PDF)
  
• “Quantum capacitance mediated carbon nanotube optomechanics”
  S. Blien, P. Steger, N. Hüttner, R. Graaf, and A. K. Hüttel
  Nature Communications 11, 1636 (2020); arXiv:1904.12188 (PDF, supplementary information)
  

2019

• “Coulomb Blockade Spectroscopy of a MoS₂ Nanotube”
  S. Reinhardt, L. Pirker, C. Bäuml, M. Remskar, and A. K. Hüttel
  Physica Status Solidi RRL 13, 1900251 (2019); arXiv:1904.05972 (PDF)
  
• “Shaping electron wave functions in a carbon nanotube with a parallel magnetic field”
  M. Marganska, D. R. Schmid, A. Dirnaichner, P. L. Stiller, Ch. Strunk, M. Grifoni, and A. K. Hüttel
  Physical Review Letters 122, 086802 (2019); arXiv:1712.08545 (PDF, supplementary information)
  
• “Carbon nanotube millikelvin transport and nanomechanics”
  K. J. G. Götz, F. J. Schupp, and A. K. Hüttel
  Physica Status Solidi B 256, 1800517 (2019); arXiv:1809.11090 (PDF)
  
• “Lab::Measurement — a portable and extensible framework for controlling lab equipment and conducting measurements”
  S. Reinhardt, C. Butschkow, S. Geissler, A. Dirnaichner, F. Olbrich, C. Lane, D. Schröer, and A. K. Hüttel
  Computer Physics Communications 234, 216 (2019); arXiv:1804.03321 (PDF)
  

2018

• “Quartz tuning-fork based carbon nanotube transfer into quantum device geometries”
  S. Blien, P. Steger, A. Albang, N. Paradiso, and A. K. Hüttel
  Physica Status Solidi B 255, 1800118 (2018); arXiv:1803.07584 (PDF, HTML)
  
• “Nanomechanical Characterization of the Kondo Charge Dynamics in a Carbon Nanotube”
  K. J. G. Götz, D. R. Schmid, F. J. Schupp, P. L. Stiller, Ch. Strunk, and A. K. Hüttel
  Physical Review Letters 120, 246802 (2018); arXiv:1802.00522 (PDF, HTML, supplementary information)
  

2016

• “Secondary electron interference from trigonal warping in clean carbon nanotubes”
  A. Dirnaichner, M. del Valle, K. J. G. Götz, F. J. Schupp, N. Paradiso, M. Grifoni, Ch. Strunk, and A. K. Hüttel
  Physical Review Letters 117, 166804 (2016); arXiv:1602.03866 (PDF, supplementary information)
  
• “Towards carbon nanotube growth into superconducting microwave resonator geometries”
  S. Blien, K. J. G. Götz, P. L. Stiller, T. Mayer, T. Huber, O. Vavra, and A. K. Hüttel
  Physica Status Solidi B 253, 2385 (2016); arXiv:1606.03319 (PDF, HTML)
  
• “Co-sputtered MoRe thin films for carbon nanotube growth-compatible superconducting coplanar resonators”
  K. J. G. Götz, S. Blien, P. L. Stiller, O. Vavra, T. Mayer, T. Huber, T. N. G. Meier, M. Kronseder, Ch. Strunk, and A. K. Hüttel
  Nanotechnology 27, 135202 (2016); arXiv:1510.00278 (PDF)
  

2015

• “Liquid-induced damping of mechanical feedback effects in single electron tunneling through a suspended carbon nanotube”
  D. R. Schmid, P. L. Stiller, C. Strunk, and A. K. Hüttel
  Applied Physics Letters 107, 123110 (2015); arXiv:1407.2114 (PDF[*])
  
• “Transport across a carbon nanotube quantum dot contacted with ferromagnetic leads: Experiment and nonperturbative modeling”
  A. Dirnaichner, M. Grifoni, A. Prüfling, D. Steininger, A. K. Hüttel, and C. Strunk
  Physical Review B 91, 195402 (2015); arXiv:1502.02005 (PDF)
  
• “Broken SU(4) symmetry in a Kondo-correlated carbon nanotube”
  D. R. Schmid, S. Smirnov, M. Marganska, A. Dirnaichner, P. L. Stiller, M. Grifoni, A. K. Hüttel, and C. Strunk
  Physical Review B 91, 155435 (2015); arXiv:1312.6586 (PDF)
  

2014

• “Thermally induced subgap features in the cotunneling spectroscopy of a carbon nanotube”
  S. Ratz, A. Donarini, D. Steininger, T. Geiger, A. Kumar, A. K. Hüttel, Ch. Strunk, and M. Grifoni
  New Journal of Physics 16, 123040 (2014), arXiv:1408.5000 (PDF)
  
• “Sub-gap spectroscopy of thermally excited quasiparticles in a Nb contacted carbon nanotube quantum dot”
  M. Gaass, S. Pfaller, T. Geiger, A. Donarini, M. Grifoni, A. K. Hüttel, and C. Strunk
  Physical Review B 89, 241405(R) (2014); arXiv:1403.4456 (PDF)
  
• “Temperature dependence of Andreev spectra in a superconducting carbon nanotube quantum dot”
  A. Kumar, M. Gaim, D. Steininger, A. Levy Yeyati, A. Martin-Rodero, A. K. Hüttel, and C. Strunk
  Physical Review B 89, 075428 (2014); arXiv:1308.1020 (PDF)
  

2013

• “Negative frequency tuning of a carbon nanotube nano-electromechanical resonator”
  P. L. Stiller, S. Kugler, D. R. Schmid, C. Strunk, and A. K. Hüttel
  Physica Status Solidi B 250, 2518 (2013); arXiv:1304.5092 (PDF)
  
• “Transversal Magnetic Anisotropy in Nanoscale PdNi-Strips”
  D. Steininger, A. K. Hüttel, M. Ziola, M. Kiessling, M. Sperl, G. Bayreuther, and Ch. Strunk
  Journal of Applied Physics 113, 034303 (2013); arXiv:1208.2163 (PDF[*])
  

2012

• “Magnetic damping of a carbon nanotube nano-electromechanical resonator”
  D. R. Schmid, P. L. Stiller, Ch. Strunk, and A. K. Hüttel
  New Journal of Physics 14, 083024 (2012); arXiv:1203.2319 (PDF)
  

2011

• “Universality of the Kondo effect in quantum dots with ferromagnetic leads”
  M. Gaass, A. K. Hüttel, K. Kang, I. Weymann, J. von Delft, and Ch. Strunk
  Physical Review Letters 107, 176808 (2011); arXiv:1104.5699 (PDF, supplementary information)
  

2010

• “Single electron tunneling through high-Q single-wall carbon nanotube NEMS resonators”
  A. K. Hüttel, H. B. Meerwaldt, G. A. Steele, M. Poot, B. Witkamp, L. P. Kouwenhoven, and H. S. J. van der Zant
  Physica Status Solidi B 247, 2974 (2010); arXiv:1004.5362 (PDF)
  

2009

• “Characterisation of Ferromagnetic Contacts to Carbon Nanotubes”
  D. Preusche, S. Schmidmeier, E. Pallecchi, Ch. Dietrich, A. K. Hüttel, J. Zweck, and Ch. Strunk
  Journal of Applied Physics 106, 084314 (2009); arXiv:0904.0907 (PDF[*])
• “Strong coupling between single-electron tunneling and nanomechanical motion”
  G. A. Steele, A. K. Hüttel, B. Witkamp, M. Poot, H. B. Meerwaldt, L. P. Kouwenhoven, and H. S. J. van der Zant
  Science 325, 1103 (2009) (BibTeX)
• “Carbon nanotubes as ultra-high quality factor mechanical resonators”
  A. K. Hüttel, G. A. Steele, B. Witkamp, M. Poot, L. P. Kouwenhoven, and H. S. J. van der Zant
  Nano Letters 9, 2547 (2009); arXiv:0907.2823 (PDF, supplementary information, BibTeX)
  
• “Pumping of Vibrational Excitations in the Coulomb-blockade Regime in a Suspended Carbon Nanotube”
  A. K. Hüttel, B. Witkamp, M. Leijnse, M. R. Wegewijs, and H. S. J. van der Zant
  Physical Review Letters 102, 225501 (2009); arXiv:0812.1769 (PDF, supplementary information, BibTeX)

relevant publications 2008 and earlier

• “Carbon nanotube Josephson junctions with Nb contacts”
  E. Pallecchi, M. Gaaß, D. Ryndyk, and C. Strunk
  Applied Physics Letters 93, 072501 (2008)
  
• “Nano-electromechanics of suspended carbon nanotubes”
  A. K. Hüttel, M. Poot, B. Witkamp, and H. S. J. van der Zant
  New Journal of Physics 10, 095003 (2008) (PDF, BibTeX)
  This paper has been selected for the article collection “New Journal of Physics Best of 2008”.
  
• “Self-detecting gate-tunable nanotube paddle resonators”
  B. Witkamp, M. Poot, H. Pathangi, A. K. Hüttel, and H. S. J. van der Zant
  Applied Physics Letters 93, 111909 (2008); arXiv:0809.0372 (PDF[*], BibTeX)
• “Suspended carbon nanotube double quantum dots”
  A. K. Hüttel, B. Witkamp, and H. S. J. van der Zant
  physica status solidi (b) 244, 4184 (2007) (PDF)
  IWEPNM 2007 conference contribution
  

full publication listings

• For a complete list of the publications of Andreas K. Hüttel please follow this link.
• The full publication list of the group Prof. C. Strunk can be found in the Regensburg university publications database.