Friedemann Reinhard
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Explore the profile of Friedemann Reinhard including associated specialties, affiliations and a list of published articles.
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20
Citations
235
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Recent Articles
1.
Trelin A, Kussauer S, Weinbrenner P, Clasen A, David R, Rimmbach C, et al.
Nano Lett
. 2024 Sep;
24(40):12374-12381.
PMID: 39316755
There is considerable evidence that action potentials are accompanied by "intrinsic optical signals", such as a nanometer-scale motion of the cell membrane. Here we present ChiSCAT, a technically simple imaging...
2.
Irber D, Poggiali F, Kong F, Kieschnick M, Luhmann T, Kwiatkowski D, et al.
Nat Commun
. 2021 Jan;
12(1):532.
PMID: 33483515
High-fidelity projective readout of a qubit's state in a single experimental repetition is a prerequisite for various quantum protocols of sensing and computing. Achieving single-shot readout is challenging for solid-state...
3.
Rinner S, Trentino A, Url H, Burger F, von Lautz J, Wolfrum B, et al.
Sci Rep
. 2020 Nov;
10(1):20078.
PMID: 33208817
Cellular micromotion-a tiny movement of cell membranes on the nm-µm scale-has been proposed as a pathway for inter-cellular signal transduction and as a label-free proxy signal to neural activity. Here...
4.
Holl P, Reinhard F
Phys Rev Lett
. 2017 May;
118(18):183901.
PMID: 28524674
Wireless data transmission systems such as wi-fi or Bluetooth emit coherent light-electromagnetic waves with a precisely known amplitude and phase. Propagating in space, this radiation forms a hologram-a two-dimensional wave...
5.
Hrubesch F, Braunbeck G, Stutzmann M, Reinhard F, Brandt M
Phys Rev Lett
. 2017 Feb;
118(3):037601.
PMID: 28157351
Using pulsed photoionization the coherent spin manipulation and echo formation of ensembles of NV^{-} centers in diamond are detected electrically, realizing contrasts of up to 17%. The underlying spin-dependent ionization...
6.
Schmid-Lorch D, Haberle T, Reinhard F, Zappe A, Slota M, Bogani L, et al.
Nano Lett
. 2015 Oct;
15(11):7780.
PMID: 26512903
No abstract available.
7.
Schmid-Lorch D, Haberle T, Reinhard F, Zappe A, Slota M, Bogani L, et al.
Nano Lett
. 2015 Jul;
15(8):4942-7.
PMID: 26218205
To study the magnetic dynamics of superparamagnetic nanoparticles, we use scanning probe relaxometry and dephasing of the nitrogen vacancy (NV) center in diamond, characterizing the spin noise of a single...
8.
Shi F, Zhang Q, Wang P, Sun H, Wang J, Rong X, et al.
Science
. 2015 Mar;
347(6226):1135-8.
PMID: 25745170
Magnetic resonance is essential in revealing the structure and dynamics of biomolecules. However, measuring the magnetic resonance spectrum of single biomolecules has remained an elusive goal. We demonstrate the detection...
9.
Schafer-Nolte E, Schlipf L, Ternes M, Reinhard F, Kern K, Wrachtrup J
Phys Rev Lett
. 2014 Dec;
113(21):217204.
PMID: 25479520
We demonstrate the tracking of the spin dynamics of ensemble and individual magnetic ferritin proteins from cryogenic up to room temperature using the nitrogen-vacancy color center in diamond as a...
10.
Momenzadeh S, Stohr R, de Oliveira F, Brunner A, Denisenko A, Yang S, et al.
Nano Lett
. 2014 Dec;
15(1):165-9.
PMID: 25438091
Photonic structures in diamond are key to most of its application in quantum technology. Here, we demonstrate tapered nanowaveguides structured directly onto the diamond substrate hosting shallow-implanted nitrogen vacancy (NV)...