Abstract
Abstract. Change is inherent to time being transient. With the NMR-MOUSE (MObile Universal Surface Explorer) having matured into an established NMR tool for nondestructive
testing of materials, this forward-looking retrospective assesses the
challenges the NMR-MOUSE faced when deployed outside a protected laboratory
and how its performance quality can be maintained and improved when operated
under adverse conditions in foreign environments. This work is dedicated to
my dear colleague and friend Geoffrey Bodenhausen on the occasion of his
crossing an honorable timeline in appreciation of his ever-continuing
success of fueling the dynamics of magnetic resonance.
Funder
Deutsche Forschungsgemeinschaft
Reference73 articles.
1. Anders, J. and Lips, K.: Device and method for generating and detecting a transient magnetization of a sample, patent application WO2017088852, available at: https://patentscope.wipo.int, last access: 22 March 2021 (in German).
2. Anders, J., Handwerker, J., Ortmanns, M., and Boero, G.: A low-power
high-sensitivity single-chip receiver for NMR microscopy, J. Magn. Reson.,
266, 41–50, 2017.
3. Anferova, S., Anferov, V., Adams, M., Blümler, P., Routley, N. , Hailu, K., Kupferschläger, K., Mallett, M. J. D., Schroeder, G., Sharma, S., and Blümich, B.: Construction of a NMR-MOUSE with Short Dead Time, Concepts Magn. Reson. B, 15, 15–25, 2002.
4. Angelova, L. V., Ormsby, B., and Richardson, E.: Diffusion of water from a range of conservation treatment gels into paint films studied by unilateral NMR: Part I: Acrylic emulsion paint, Microchem. J., 124, 311–320, 2016.
5. Armstrong-Smith, I.: A Briefcase Full of NMR, Anal. Sci., 26, 24–31, 2015.
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