Calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass
Several experiments indicate that there are atomic tunneling defects in plastically deformed metals. How this is possible has not been clear, given the large mass of the metal atoms. Using a classical molecular-dynamics calculation, we determine the structures, energy barriers, effective masses, and...
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sg-ntu-dr.10356-917232023-02-28T19:38:09Z Calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass Sethna, James. P. Jacobsen, K. W. Myers, Christopher R. Ralph, Daniel C. Vegge, Tejs Cheong, Siew Ann DRNTU::Science::Physics::Atomic physics::Solid state physics Several experiments indicate that there are atomic tunneling defects in plastically deformed metals. How this is possible has not been clear, given the large mass of the metal atoms. Using a classical molecular-dynamics calculation, we determine the structures, energy barriers, effective masses, and quantum tunneling rates for dislocation kinks and jogs in copper screw dislocations. We find that jogs are unlikely to tunnel, but the kinks should have large quantum fluctuations. The kink motion involves hundreds of atoms each shifting a tiny amount, leading to a small effective mass and tunneling barrier. Published version 2009-05-06T04:11:02Z 2019-12-06T18:10:49Z 2009-05-06T04:11:02Z 2019-12-06T18:10:49Z 2001 2001 Journal Article Vegge, T., Sethna, J. P., Cheong, S. A., Jacobsen, K. W., Myers, C. R., & Ralph, D. C. (2001). Calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass. Physical Review Letters, 86(8), 1546-1549. 0031-9007 https://hdl.handle.net/10356/91723 http://hdl.handle.net/10220/4592 http://sfxna09.hosted.exlibrisgroup.com:3410/ntu/sfxlcl3?sid=metalib:CSA_MEDLINE&id=doi:&genre=&isbn=&issn=0031-9007&date=2001&volume=86&issue=8&spage=1546&epage=9&aulast=Vegge&aufirst=%20T&auinit=&title=Physical%20review%20letters&atitle=Calculation%20of%20quantum%20tunneling%20for%20a%20spatially%20extended%20defect%3A%20the%20dislocation%20kink%20in%20copper%20has%20a%20low%20effective%20mass%2E 10.1103/PhysRevLett.86.1546 en Physical review letters Physical Review Letters. © 2001 The American Physical Society. The journal's website is located at http://www.aps.org/ 4 p. application/pdf |
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DRNTU::Science::Physics::Atomic physics::Solid state physics Sethna, James. P. Jacobsen, K. W. Myers, Christopher R. Ralph, Daniel C. Vegge, Tejs Cheong, Siew Ann Calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass |
| description |
Several experiments indicate that there are atomic tunneling defects in plastically deformed metals. How this is possible has not been clear, given the large mass of the metal atoms. Using a classical molecular-dynamics calculation, we determine the structures, energy barriers, effective masses, and quantum tunneling rates for dislocation kinks and jogs in copper screw dislocations. We find that jogs are unlikely to tunnel, but the kinks should have large quantum fluctuations. The kink motion involves hundreds of atoms each shifting a tiny amount, leading to a small effective mass and tunneling barrier. |
| format |
Article |
| author |
Sethna, James. P. Jacobsen, K. W. Myers, Christopher R. Ralph, Daniel C. Vegge, Tejs Cheong, Siew Ann |
| author_facet |
Sethna, James. P. Jacobsen, K. W. Myers, Christopher R. Ralph, Daniel C. Vegge, Tejs Cheong, Siew Ann |
| author_sort |
Sethna, James. P. |
| title |
Calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass |
| title_short |
Calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass |
| title_full |
Calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass |
| title_fullStr |
Calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass |
| title_full_unstemmed |
Calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass |
| title_sort |
calculation of quantum tunneling for a spatially extended defect : the dislocation kink in copper has a low effective mass |
| publishDate |
2009 |
| url |
https://hdl.handle.net/10356/91723 http://hdl.handle.net/10220/4592 http://sfxna09.hosted.exlibrisgroup.com:3410/ntu/sfxlcl3?sid=metalib:CSA_MEDLINE&id=doi:&genre=&isbn=&issn=0031-9007&date=2001&volume=86&issue=8&spage=1546&epage=9&aulast=Vegge&aufirst=%20T&auinit=&title=Physical%20review%20letters&atitle=Calculation%20of%20quantum%20tunneling%20for%20a%20spatially%20extended%20defect%3A%20the%20dislocation%20kink%20in%20copper%20has%20a%20low%20effective%20mass%2E |
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