Diamond-based single-molecule magnetic resonance spectroscopy
Wissenschaftlicher Artikel
Published in
New Journal of Physics ; 15 (2013), 1. - Art.-Nr. 013020. - eISSN 1367-2630
Link to original publication
https://dx.doi.org/10.1088/1367-2630/15/1/013020Faculties
Fakultät für NaturwissenschaftenInstitutions
Institut für Theoretische PhysikInstitut für Quantenoptik
Center for Integrated Quantum Science and Technology (IQST)
Document version
published version (publisher's PDF)Abstract
Abstract
The detection of a nuclear spin in an individual molecule represents a key challenge in physics and biology whose solution has been pursued for many years. The small magnetic moment of a single nucleus and the unavoidable environmental noise present the key obstacles for its realization. In this paper, we demonstrate theoretically that a single nitrogen-vacancy center in diamond can be used to construct a nano-scale single-molecule spectrometer that is capable of detecting the position and spin state of a single nucleus and can determine the distance and alignment of a nuclear or electron spin pair. The proposed device would find applications in single-molecule spectroscopy in chemistry and biology, for example in determining the protein structure or in monitoring macromolecular motions, and can thus provide a tool to help unravel the microscopic mechanisms underlying bio-molecular function.
EU Project uulm
Q-ESSENCE / Quantum Interfaces, Sensors and Communication based on Entanglement / EC / FP7 / 248095
PICC / The physics of Ion Coulomb Crystals: Thermodynamics, Quantum control, and Quantum Simulators. / EC / FP7 / 249958
DIAMANT / Diamond based atomic nanotechnologies / EC / FP7 / 270197
PICC / The physics of Ion Coulomb Crystals: Thermodynamics, Quantum control, and Quantum Simulators. / EC / FP7 / 249958
DIAMANT / Diamond based atomic nanotechnologies / EC / FP7 / 270197
DFG Project THU
FOR 1493 / Mechanical and Opto-mechanical Interfaces for Single Color Centers in Diamond / DFG / 164674487
FOR 1482 / Scalable quantum logic using engineered spin in diamond / DFG / 164540649
TRR 21 / CO.CO.MAT / Quantenkontrolle in maßgeschneiderter Materie / DFG / 5486344
FOR 1482 / Scalable quantum logic using engineered spin in diamond / DFG / 164540649
TRR 21 / CO.CO.MAT / Quantenkontrolle in maßgeschneiderter Materie / DFG / 5486344
Project uulm
QK_QuOReP / Verbundprojekt: QK_QuOReP (Quanten-Repeater-Plattform mit Methoden der Quantenoptik) - Teilprojekt: Kontrolle und Verifikation von Quantenzuständen für Repeaterkomponenten / BMBF / 16BQ1014
bwGRiD / Land Baden-Württemberg
bwGRiD / Land Baden-Württemberg
Subject headings
[GND]: Spektrometer[LCSH]: Nuclear spin
[DDC subject group]: DDC 530 / Physics
License
CC BY-NC-SA 3.0 DEMetadata
Show full item recordDOI & citation
Please use this identifier to cite or link to this item: http://dx.doi.org/10.18725/OPARU-46884
Cai, Jianming et al. (2023): Diamond-based single-molecule magnetic resonance spectroscopy. Open Access Repositorium der Universität Ulm und Technischen Hochschule Ulm. http://dx.doi.org/10.18725/OPARU-46884
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