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Getting FM in semiconductors is not trivial. Recall why we have FM in metals: Band structure leads to enhanced exchange interactions between (relatively)

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Presentation on theme: "Getting FM in semiconductors is not trivial. Recall why we have FM in metals: Band structure leads to enhanced exchange interactions between (relatively)"— Presentation transcript:

1 Getting FM in semiconductors is not trivial. Recall why we have FM in metals: Band structure leads to enhanced exchange interactions between (relatively) localized spins (d- or f-shell electrons). Conduction electrons can play a very important role. In semiconductors, Carriers present are only there because of doping, and at much lower concentrations. No natural localized spins. Situation today: Add localized spins by doping (e.g. with Mn). Mechanism of FM still not universally clear. Curie temperatures still not great Dilute Magnetic semiconductors (DMS)

2 charge distribution of magnetic ions overlap Direct exchange Super-exchange Magnetic ions interaction mediated by interaction with conduction elections. RKKY interaction Indirect exchange Magnetic ions interact by charge overlap with same non-magnetic ions Exchange interactions

3 Dietl et al, Science 287, 1019 (2000) 5% Mn P=3.5x10 20 /cm 3 Main family: III-V compound semiconductors. Most common magnetic dopant in Mn (group II). Result: III(Mn)-V compounds are p-type. Grown by low-temperature MBE - not thermodynamically stable. Typical concentration something like Ga 0.95 Mn 0.05 As. Note that these materials are quite heavily doped! II-VI materials have been much harder to work with (unable to dope; exchange interaction difficult to control). Dilute Magnetic semiconductors (DMS)

4 Magnetic semiconductors - description Tanaka., J. Cryst. Growth 278, 25 (2005)

5 Sensitivity to carrier concentration means it’s possible to have gateable ferromagnetism! Potentially very exciting for spintronics applications. Major problems: Temperature range is poor. Materials compatibility is not very good, either. Ohno et al., Nature 408 944 (2000) DMS: magnetic properties

6 So far, have increased Tc up to higher values (~ 175 K) in GaMnAs system…. - Increase Mn concentration: Mn provides magnetic moments. (LTMBE to incorporate Mn.) - Increase hole concentration: holes mediate exchange coupling. (Low temperature growth results in defects and reduces hole concentration – HS and modulation doping.) To increase T C Tanaka., J. Cryst. Growth 278, 25 (2005) DMS: heterostructures

7 TC > room T obtained in InAs:Mn QD sample. Enhancement caused by “good” disorder? DMS QD samples Bhattacharya group, APL 85, 973 (2004)

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