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Three-dimensional cylindrical X-band ESR imaging by a combined pulsed gradient Fourier and static gradient projection reconstruction method

Three-dimensional cylindrical X-band ESR imaging by a combined pulsed gradient Fourier and static gradient projection reconstruction method

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GLIED, Michael, Malte DRESCHER, Elmar DORMANN, 2006. Three-dimensional cylindrical X-band ESR imaging by a combined pulsed gradient Fourier and static gradient projection reconstruction method. In: Journal of Magnetic Resonance : JMR. 180(2), pp. 163-169. ISSN 1090-7807. eISSN 1096-0856. Available under: doi: 10.1016/j.jmr.2006.02.005

@article{Glied2006-06Three-40100, title={Three-dimensional cylindrical X-band ESR imaging by a combined pulsed gradient Fourier and static gradient projection reconstruction method}, year={2006}, doi={10.1016/j.jmr.2006.02.005}, number={2}, volume={180}, issn={1090-7807}, journal={Journal of Magnetic Resonance : JMR}, pages={163--169}, author={Glied, Michael and Drescher, Malte and Dormann, Elmar} }

Static gradient electron spin echo projection reconstruction imaging is favourable for X-band material science applications requiring temperature variation with a metal cryostat. To prevent imaging artefacts due to the high conduction electron diffusion coefficient in the preferred conduction direction of quasi-one-dimensional conductors, only pulsed gradient phase encoding for that direction can be tolerated. We present results of an appropriate cylindrical imaging scheme combining both methods. Conduction electron spin density images with 13 x 13 x 17 microm<sup>3</sup> volume element size or spin-lattice relaxation time images with inversion recovery sequence and 13 x 13 x 68 microm<sup>3</sup> volume element size are presented for fluoranthene radical cation salt single crystals of typical sizes of 0.4 x 0.4 x 1 mm<sup>3</sup>. Dormann, Elmar 2006-06 Dormann, Elmar Glied, Michael Drescher, Malte 2017-09-18T12:22:26Z 2017-09-18T12:22:26Z Drescher, Malte eng Glied, Michael Three-dimensional cylindrical X-band ESR imaging by a combined pulsed gradient Fourier and static gradient projection reconstruction method

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