Christian Degen

Affiliations: 
Eidgenössische Technische Hochschule Zürich, Zürich, ZH, Switzerland 
Google:
"Christian Degen"
Mean distance: (not calculated yet)
 

Parents

Sign in to add mentor
Beat H. Meier grad student 2001-2005 ETH Zürich (Chemistry Tree)
Daniel Rugar post-doc 2006-2008 IBM Research Division

Collaborators

Sign in to add collaborator
Martino Poggio collaborator 2006- ETH Zürich
BETA: Related publications

Publications

You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect.

Budakian R, Finkler A, Eichler A, et al. (2024) Roadmap on nanoscale magnetic resonance imaging. Nanotechnology
Herb K, Segawa TF, Völker LA, et al. (2024) Multidimensional Spectroscopy of Nuclear Spin Clusters in Diamond. Physical Review Letters. 132: 133002
Pachlatko R, Prumbaum N, Krass MD, et al. (2024) Nanoscale Magnets Embedded in a Microstrip. Nano Letters. 24: 2081-2086
Zhu T, Rhensius J, Herb K, et al. (2023) Multicone Diamond Waveguides for Nanoscale Quantum Sensing. Nano Letters. 23: 10110-10117
Völker LA, Herb K, Janitz E, et al. (2023) Toward quantum sensing of chiral induced spin selectivity: Probing donor-bridge-acceptor molecules with NV centers in diamond. The Journal of Chemical Physics. 158
Pinotsi D, Tian R, Anand P, et al. (2023) Distance measurements between 5 nanometer diamonds - single particle magnetic resonance or optical super-resolution imaging? Nanoscale Advances. 5: 1345-1355
Janitz E, Herb K, Völker LA, et al. (2022) Diamond surface engineering for molecular sensing with nitrogen-vacancy centers. Journal of Materials Chemistry. C. 10: 13533-13569
Abendroth JM, Herb K, Janitz E, et al. (2022) Single-Nitrogen-Vacancy NMR of Amine-Functionalized Diamond Surfaces. Nano Letters
Vélez S, Ruiz-Gómez S, Schaab J, et al. (2022) Current-driven dynamics and ratchet effect of skyrmion bubbles in a ferrimagnetic insulator. Nature Nanotechnology. 17: 834-841
Grob U, Krass MD, Heritier M, et al. (2019) Magnetic resonance force microscopy with a one-dimensional resolution of 0.9 nanometers. Nano Letters
See more...