Nuclear magnetism and superconductivity in rhodium
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Doctoral thesis (article-based)
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Date
2000-11-24
Department
Department of Engineering Physics and Mathematics
Teknillisen fysiikan ja matematiikan osasto
Teknillisen fysiikan ja matematiikan osasto
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Language
en
Pages
22, [96]
Series
Abstract
This thesis presents the results of experiments studying nuclear magnetism, superconductivity and their mutual interaction in rhodium at ultralow temperatures with high nuclear polarizations. The experiments were performed with a new cooling apparatus particularly designed for such measurements. The highest nuclear polarizations reached were p = 0.95 and the lowest achieved temperature of the nuclear spin system was below 100 pK. The measured susceptibility data showed a clear antiferromagnetic tendency of the nuclear spin system, but no indication of a magnetically ordered state was observed. Multiple spin flips, where a single photon flips several nuclei were observed. The double-spin-flip resonance was observed at positive and for the first time also at negative spin temperatures. The behavior of the resonance fitted the theoretical expectations very well and its frequency shift gives direct information of the mutual interactions between the nuclear spins. A possible trace of the triple-spin-flip peak was also detected. Because of the rare properties of rhodium, where the critical field of superconductivity is considerably lower than the local field of the nuclei, experiments could be performed with polarized nuclei also in the superconducting state of the electron system. The measurements could thus be extended to a completely new regime, where polarized nuclei are embedded in a coherent conduction electron system. The spin-lattice relaxation time was found to be always longer in the superconducting state as compared to the normal state. Additionally in the superconducting state the relaxation time displayed an unexpectedly strong polarization dependence.Description
Keywords
rhodium, nuclear magnetism, superconductivity, spin-lattice relaxation
Other note
Parts
- T. A. Knuuttila, K. K. Nummila, W. Yao, J. P. Kauppinen, and J. P. Pekola, Direct Measurements of Electron Thermalization in Coulomb Blockade Nanothermometers at Millikelvin Temperatures, Physica E, Volume 3, pp. 224-228 (1998). [article1.pdf] © 1998 Elsevier Science. By permission.
- W. Yao, T. A. Knuuttila, K. K. Nummila, J. E. Martikainen, A. S. Oja, and O. V. Lounasmaa, A Versatile Nuclear Demagnetization Cryostat for Ultralow Temperature Research, Journal of Low Temperature Physics, Volume 120, Issue 1/2, pp. 121-150 (2000).
- K. Lefmann, T. A. Knuuttila, J. E. Martikainen, L. T. Kuhn, and K. K. Nummila, Effect of Heat Treatment of Pure and Carbon-polluted Rhodium Samples on the Low-temperature Resistivity, Journal of Materials Science, Volume 36, pp. 839-844 (2001). [article3.pdf] © 2001 Kluwer Academic Publishers. By permission.
- J. T. Tuoriniemi, T. A. Knuuttila, K. Lefmann, K. K. Nummila, W. Yao, and F. B. Rasmussen, Double-Spin Flip Resonance of Rhodium Nuclei at Positive and Negative Spin Temperatures, Physical Review Letters, Volume 84, Issue 2, pp. 370-373 (2000). [article4.pdf] © 2000 American Physical Society. By permission.
- J. T. Tuoriniemi and T. A. Knuuttila, Nuclear Cooling and Spin Properties of Rhodium down to Picokelvin Temperatures, Physica B, Volume 280, pp. 474-478 (2000). [article5.pdf] © 2000 Elsevier Science. By permission.
- T. A. Knuuttila, J. E. Martikainen, F. B. Rasmussen, and J. T. Tuoriniemi, Double Spin Flip Mode of Rhodium Nuclei, Physica B, Volume 284, pp. 1700-1701 (2000). [article6.pdf] © 2000 Elsevier Science. By permission.
- T. A. Knuuttila, J. T. Tuoriniemi, and K. Lefmann, Relaxation of Polarized Nuclei in Superconducting Rhodium, Physical Review Letters, Volume 85, Issue 12, pp. 2573-2576 (2000). [article7.pdf] © 2000 American Physical Society. By permission.
- T. A. Knuuttila, J. T. Tuoriniemi, K. Lefmann, K. I. Juntunen, F. B. Rasmussen, and K. K. Nummila, Polarized Nuclei in Normal and Superconducting Rhodium, Report TKK-KYL-002, pp. 1-40 (2000). [article8.pdf] © 2000 by authors.