Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials
Barbara, B. ; Sampaio, L. C. ; Wegrowe, J. E. ; Ratnam, B. A. ; Marchand, A. ; Paulsen, C. ; Novak, M. A. ; Tholence, J. L. ; Uehara, M. ; Fruchart, D.
[S.l.] : American Institute of Physics (AIP)
Published 1993
[S.l.] : American Institute of Physics (AIP)
Published 1993
| ISSN: |
1089-7550
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|---|---|
| Source: |
AIP Digital Archive
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| Topics: |
Physics
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| Notes: |
Magnetic relaxation experiments constitute a unique method of determining the nature of fluctuations in dissipative magnetic systems. At high temperatures these fluctuations are thermal and strongly temperature dependent. At low temperatures, where quantum fluctuations dominate, magnetic relaxation becomes independent of temperature. Such behavior has been observed in many systems. In this review we emphasize the study of low temperature relaxation in ferromagnetic nanoparticles, layers, and multilayers (including "domain wall junctions''), and large single crystals. The results of magnetic relaxation experiments are shown to agree with theoretical predictions of quantum tunneling of the magnetization. When dissipation becomes important, in large and complex systems, a time dependent WKB exponent needs to be introduced.
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| Type of Medium: |
Electronic Resource
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| URL: |
| _version_ | 1798289658845593601 |
|---|---|
| autor | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. |
| autorsonst | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. |
| book_url | http://dx.doi.org/10.1063/1.352508 |
| datenlieferant | nat_lic_papers |
| hauptsatz | hsatz_simple |
| identnr | NLZ21860551X |
| iqvoc_descriptor_title | iqvoc_00000092:materials |
| issn | 1089-7550 |
| journal_name | Journal of Applied Physics |
| materialart | 1 |
| notes | Magnetic relaxation experiments constitute a unique method of determining the nature of fluctuations in dissipative magnetic systems. At high temperatures these fluctuations are thermal and strongly temperature dependent. At low temperatures, where quantum fluctuations dominate, magnetic relaxation becomes independent of temperature. Such behavior has been observed in many systems. In this review we emphasize the study of low temperature relaxation in ferromagnetic nanoparticles, layers, and multilayers (including "domain wall junctions''), and large single crystals. The results of magnetic relaxation experiments are shown to agree with theoretical predictions of quantum tunneling of the magnetization. When dissipation becomes important, in large and complex systems, a time dependent WKB exponent needs to be introduced. |
| package_name | American Institute of Physics (AIP) |
| publikationsjahr_anzeige | 1993 |
| publikationsjahr_facette | 1993 |
| publikationsjahr_intervall | 8009:1990-1994 |
| publikationsjahr_sort | 1993 |
| publikationsort | [S.l.] |
| publisher | American Institute of Physics (AIP) |
| reference | 73 (1993), S. 6703-6708 |
| search_space | articles |
| shingle_author_1 | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. |
| shingle_author_2 | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. |
| shingle_author_3 | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. |
| shingle_author_4 | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. |
| shingle_catch_all_1 | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials Magnetic relaxation experiments constitute a unique method of determining the nature of fluctuations in dissipative magnetic systems. At high temperatures these fluctuations are thermal and strongly temperature dependent. At low temperatures, where quantum fluctuations dominate, magnetic relaxation becomes independent of temperature. Such behavior has been observed in many systems. In this review we emphasize the study of low temperature relaxation in ferromagnetic nanoparticles, layers, and multilayers (including "domain wall junctions''), and large single crystals. The results of magnetic relaxation experiments are shown to agree with theoretical predictions of quantum tunneling of the magnetization. When dissipation becomes important, in large and complex systems, a time dependent WKB exponent needs to be introduced. 1089-7550 10897550 American Institute of Physics (AIP) |
| shingle_catch_all_2 | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials Magnetic relaxation experiments constitute a unique method of determining the nature of fluctuations in dissipative magnetic systems. At high temperatures these fluctuations are thermal and strongly temperature dependent. At low temperatures, where quantum fluctuations dominate, magnetic relaxation becomes independent of temperature. Such behavior has been observed in many systems. In this review we emphasize the study of low temperature relaxation in ferromagnetic nanoparticles, layers, and multilayers (including "domain wall junctions''), and large single crystals. The results of magnetic relaxation experiments are shown to agree with theoretical predictions of quantum tunneling of the magnetization. When dissipation becomes important, in large and complex systems, a time dependent WKB exponent needs to be introduced. 1089-7550 10897550 American Institute of Physics (AIP) |
| shingle_catch_all_3 | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials Magnetic relaxation experiments constitute a unique method of determining the nature of fluctuations in dissipative magnetic systems. At high temperatures these fluctuations are thermal and strongly temperature dependent. At low temperatures, where quantum fluctuations dominate, magnetic relaxation becomes independent of temperature. Such behavior has been observed in many systems. In this review we emphasize the study of low temperature relaxation in ferromagnetic nanoparticles, layers, and multilayers (including "domain wall junctions''), and large single crystals. The results of magnetic relaxation experiments are shown to agree with theoretical predictions of quantum tunneling of the magnetization. When dissipation becomes important, in large and complex systems, a time dependent WKB exponent needs to be introduced. 1089-7550 10897550 American Institute of Physics (AIP) |
| shingle_catch_all_4 | Barbara, B. Sampaio, L. C. Wegrowe, J. E. Ratnam, B. A. Marchand, A. Paulsen, C. Novak, M. A. Tholence, J. L. Uehara, M. Fruchart, D. Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials Magnetic relaxation experiments constitute a unique method of determining the nature of fluctuations in dissipative magnetic systems. At high temperatures these fluctuations are thermal and strongly temperature dependent. At low temperatures, where quantum fluctuations dominate, magnetic relaxation becomes independent of temperature. Such behavior has been observed in many systems. In this review we emphasize the study of low temperature relaxation in ferromagnetic nanoparticles, layers, and multilayers (including "domain wall junctions''), and large single crystals. The results of magnetic relaxation experiments are shown to agree with theoretical predictions of quantum tunneling of the magnetization. When dissipation becomes important, in large and complex systems, a time dependent WKB exponent needs to be introduced. 1089-7550 10897550 American Institute of Physics (AIP) |
| shingle_title_1 | Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials |
| shingle_title_2 | Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials |
| shingle_title_3 | Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials |
| shingle_title_4 | Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials |
| sigel_instance_filter | dkfz geomar wilbert ipn albert |
| source_archive | AIP Digital Archive |
| timestamp | 2024-05-06T08:04:20.705Z |
| titel | Quantum tunneling in magnetic systems of various sizes (invited) : 37th Annual conference on magnetism and magnetic materials |
| titel_suche | Quantum tunneling in magnetic systems of various sizes (invited) 37th Annual conference on magnetism and magnetic materials |
| topic | U |
| uid | nat_lic_papers_NLZ21860551X |