Matthias Widmann
Matthias Widmann
3. Institute of Physics, University of Stuttgart
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Cited by
Coherent control of single spins in silicon carbide at room temperature
M Widmann, SY Lee, T Rendler, NT Son, H Fedder, S Paik, LP Yang, ...
Nature materials 14 (2), 164-168, 2015
High-fidelity spin and optical control of single silicon-vacancy centres in silicon carbide
R Nagy, M Niethammer, M Widmann, YC Chen, P Udvarhelyi, C Bonato, ...
Nature communications 10 (1), 1-8, 2019
Scalable quantum photonics with single color centers in silicon carbide
M Radulaski, M Widmann, M Niethammer, JL Zhang, SY Lee, T Rendler, ...
Nano letters 17 (3), 1782-1786, 2017
Developing silicon carbide for quantum spintronics
NT Son, CP Anderson, A Bourassa, KC Miao, C Babin, M Widmann, ...
Applied Physics Letters 116 (19), 2020
Quantum properties of dichroic silicon vacancies in silicon carbide
R Nagy, M Widmann, M Niethammer, DBR Dasari, I Gerhardt, ÖO Soykal, ...
Physical Review Applied 9 (3), 034022, 2018
Readout and control of a single nuclear spin with a metastable electron spin ancilla
SY Lee, M Widmann, T Rendler, MW Doherty, TM Babinec, S Yang, ...
Nature nanotechnology 8 (7), 487-492, 2013
Electron spin decoherence in silicon carbide nuclear spin bath
LP Yang, C Burk, M Widmann, SY Lee, J Wrachtrup, N Zhao
Physical Review B 90 (24), 241203, 2014
Laser writing of scalable single color centers in silicon carbide
YC Chen, PS Salter, M Niethammer, M Widmann, F Kaiser, R Nagy, ...
Nano letters 19 (4), 2377-2383, 2019
Vector Magnetometry Using Silicon Vacancies in -SiC Under Ambient Conditions
M Niethammer, M Widmann, SY Lee, P Stenberg, O Kordina, T Ohshima, ...
Physical Review Applied 6 (3), 034001, 2016
Electrical charge state manipulation of single silicon vacancies in a silicon carbide quantum optoelectronic device
M Widmann, M Niethammer, DY Fedyanin, IA Khramtsov, T Rendler, ...
Nano letters 19 (10), 7173-7180, 2019
Diamond magnetometry and gradiometry towards subpicotesla dc field measurement
C Zhang, F Shagieva, M Widmann, M Kübler, V Vorobyov, P Kapitanova, ...
Physical Review Applied 15 (6), 064075, 2021
Simultaneous Faraday filtering of the Mollow triplet sidebands with the Cs-D1 clock transition
SL Portalupi, M Widmann, C Nawrath, M Jetter, P Michler, J Wrachtrup, ...
Nature communications 7 (1), 13632, 2016
Coherent electrical readout of defect spins in silicon carbide by photo-ionization at ambient conditions
M Niethammer, M Widmann, T Rendler, N Morioka, YC Chen, R Stöhr, ...
Nature communications 10 (1), 5569, 2019
Bright single photon sources in lateral silicon carbide light emitting diodes
M Widmann, M Niethammer, T Makino, T Rendler, S Lasse, T Ohshima, ...
Applied Physics Letters 112 (23), 2018
Robust and efficient quantum optimal control of spin probes in a complex (biological) environment. Towards sensing of fast temperature fluctuations
P Konzelmann, T Rendler, V Bergholm, A Zappe, V Pfannenstill, M Garsi, ...
New Journal of Physics 20 (12), 123013, 2018
Scalable production of solid-immersion lenses for quantum emitters in silicon carbide
F Sardi, T Kornher, M Widmann, R Kolesov, F Schiller, T Reindl, M Hagel, ...
Applied Physics Letters 117 (2), 2020
Narrow inhomogeneous distribution of spin-active emitters in silicon carbide
R Nagy, DBR Dasari, C Babin, D Liu, V Vorobyov, M Niethammer, ...
Applied Physics Letters 118 (14), 2021
Faraday Filtering on the Cs-D1-Line for Quantum Hybrid Systems
M Widmann, SL Portalupi, P Michler, J Wrachtrup, I Gerhardt
IEEE Photonics Technology Letters 30 (24), 2083-2086, 2018
Surfactant self-assembly in cylindrical pores: Insights from mesoscale simulations
D Müter, MA Widmann, H Bock
The Journal of Physical Chemistry Letters 4 (13), 2153-2157, 2013
Single molecule DNA detection with an atomic vapor notch filter
D Uhland, T Rendler, M Widmann, SY Lee, J Wrachtrup, I Gerhardt
EPJ Quantum Technology 2, 1-12, 2015
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