• Mass sensing for the advanced fabrication of nanomechanical resonators 

    Gruber, G.; Urgell, C.; Tavernarakis, A.; Stavrinadis, A.; Tepsic, S.; Magén, C.; Sangiao, S.; Teresa, J. M. de; Verlot, P.; Bachtold, A. (ACS, 2019-09-03)
    Artículo
    Acceso abierto
    We report on a nanomechanical engineering method to monitor matter growth in real time via e-beam electromechanical coupling. This method relies on the exceptional mass sensing capabilities of nanomechanical resonators. ...
  • Optomechanics with a hybrid carbon nanotube resonator 

    Tavernarakis, A.; Stavrinadis, A.; Nowak, A.; Tsioutsios, I.; Bachtold, A.; Verlot, P. (Nature, 2018-02-14)
    Artículo
    Acceso abierto
    In just 20 years of history, the field of optomechanics has achieved impressive progress, stepping into the quantum regime just 5 years ago. Such remarkable advance relies on the technological revolution of nano-optomechanical ...
  • Optomechanics with a hybrid carbon nanotube resonator 

    Tavernarakis, A.; Stavrinadis, A.; Nowak, A.; Tsioutsios, I.; Bachtold, A. (Nature, 2018-02-14)
    Artículo
    Acceso abierto
    In just 20 years of history, the field of optomechanics has achieved impressive progress, stepping into the quantum regime just 5 years ago. Such remarkable advance relies on the technological revolution of nano-optomechanical ...
  • Ultrasensitive Displacement Noise Measurement of Carbon Nanotube Mechanical Resonators 

    Bonis, S. L. de; Urgell, C.; Yang, W.; Samanta, C.; Noury, A.; Vergara-Cruz, J.; Dong, Q.; Jin, Y.; Bachtold, A. (ACS, 2018-07-31)
    Artículo
    Acceso abierto
    Mechanical resonators based on a single carbon nanotube are exceptional sensors of mass and force. The force sensitivity in these ultralight resonators is often limited by the noise in the detection of the vibrations. ...