H A M M E L G R O U P
Understanding and Exploiting Magnetism and Electronic Spin in Materials |
| Contact:
P. Chris Hammel
+ 614 247-6928 Department of Physics 191 W. Woodruff Ave The Ohio State University Columbus, Ohio 43210-1106 USA Office: 2000 Physics Research Bldg (Bldg 070) Curriculum Vitae: Full Brief Biosketch Maps: Interactive campus map Columbus Map Map showing Department, hotels & parking garages |
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An NSF Funded Materials Research and Engineering Center |
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Magnetic resonance is powerful microscopic probe of local magnetic and structural properties. We are applying the emerging technique of Magnetic Resonance Force Microscopy (MRFM), a new approach that employs mechanical detection of magnetic resonance to achieve exceptional detection sensitivity which in turn enables very high resolution magnetic resonance imaging and local characterization.
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| FERROMAGNETIC RESONANCE
IMAGING: |
Imaging Interactions and Dynamics Inside Ferromagnets
With Nanoscale Resolution and Spectroscopic Precision |
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Nature vol. 466, p. 845, 12 August 2010
Nanoscale scanning probe ferromagnetic resonance imaging using localized modes (pdf) Media attention: impact of FMR imaging |
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| MAGNETIC RESONANCE
FORCE MICROSCOPY: |
Towards Three-Dimensional Sub-Surface
Atomic-Scale Imaging of Magnetic Materials |
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For a review: "The Magnetic Resonance Force Microscope" (pdf)
Handbook of Magnetism and Advanced Magnetic Materials Vol. 5, Part 4 (Wiley, 2007). |
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| SPIN ELECTRONICS:
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A New Information Processing Paradigm
Using Electronic Spins in Solids |
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Spin transport and imaging opportunities in inhomogeneous environments
arxiv (cond-mat) 1010.3747 |
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| STRONGLY CORRELATED
ELECTRONIC SYSTEMS: |
High Temperature Superconductivity, Magnetism
and Charge Inhomogeneity in Correlated Electron Systems |
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| PUBLICATIONS | A Selection of Recent Publications
On These Research Topics. |
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This Research is Supported by the Following Agencies 
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