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Nuclear magnetic resonance

High-field NMR at LNCMI-Grenoble,
Nuclear Magnetic Resonance   Laboratoire National des Champs Magnétiques Intenses



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Nuclear magnetic resonance (NMR) is well known to the general public for its application in medical imaging (MRI) and is widely used for determining molecular structures in chemistry and biology, where high magnetic fields are applied to increase the sensitivity and the resolution of the technique. In solid state physics, NMR is an extraordinarily powerful microscopic probe of the electronic properties, and the particularly intense magnetic fields available at LNCMI for NMR are rather used to induce and study new quantum phases of matter and to control the transitions between them. These field-induced phenomena occur in correlated electron systems and they include novel quantum magnetic states (Bose-Einstein condensates, magnetization plateau phases, supersolid phases), field induced and/or modified superconductivity (Jaccarino-Peter compensation effect, FFLO phase), quantum-Hall effect, spin and charge density waves in low dimensional conductors, as well as the competition between charge order and superconductivity in high Tc superconductors.

The high-field NMR facility at LNCMI-Grenoble extends the magnetic field range provided by superconducting magnets (17 T NMR magnets available at LNCMI) up to the highest available magnetic field in the lab (currently 35 T for NMR), at temperatures down to 40 mK, all within a spatial and temporal homogeneity of 40 ppm over 1-2 mm. Options for enhanced resolution NMR of 10 ppm / 10 mm sample, required by solid state chemistry, are also available and under further development.
 
 
Persons of the lab involved: Claude BERTHIER, Mladen HORVATIC, Marc-Henri JULIEN, Steffen KRÄMER, Hadrien MAYAFFRE, Rui ZHOU, Anna ORLOVA, Igor VINOGRAD

 

 

Fig. 1 NMR spectra reveal magnetic structure in the "magnetization plateau" of SrCu2(BO3)2
[K. Kodama et al., Science 298, 395 (2002)].

 

 

Fig. 2 NMR signature of the field-induced charge stripes in a high temperature superconductor YBa2Cu3Oy [T. Wu et al., Nature 477, 191 (2011)].


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Last modification 10 February 2017

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