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Magnetic tunnel junctions for magnetic random access memory applications M. Guth), G. Schmerber, A. Dinia France 2002.

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Presentation on theme: "Magnetic tunnel junctions for magnetic random access memory applications M. Guth), G. Schmerber, A. Dinia France 2002."— Presentation transcript:

1 Magnetic tunnel junctions for magnetic random access memory applications M. Guth), G. Schmerber, A. Dinia France 2002

2 Advantage MRAM have a longevity because of the very important number of reader/write cycles that they can bear. ( The write time is not clearly determined; it is reasonable that this time will be lower than 10 ns for addressing bit-memory. ) The commercial memories are in a constant competition for reducing bit memory size and increasing density. ( MRAM can satisfy this target because of the bit-memory matrix addressing structure. ) Power consumption is 1 to 2 times lower than the traditional DRAM memories.

3 Comparison of a number of characteristics for different Random Access Memories

4 These two states will constitute the two binary states in MRAM devices.

5 MRAM’s matrix of MTJ cells and the magnetic field induced by the current flow in a bit line or a word line.

6 barrier ( aluminum oxide ) most commonly used Oxide has a high gap value and the resistance increases quickly by reducing the junction size, and will give resistance values not compatible with electronic devices.

7 Si substrate buffer layer Fe 6nm /Cu 30nm CoFe 1.8nm /Ru 0.8nm /CoFe 3nm (AAF) ZnS 2nm CoFe 1nm Fe 4nm / Cu 10nm / Ru 3nm

8 I–V measurement for the 10× 10 mm 2 patterned junction composed of Fe 6 nm Cu 30 nm CoFe 1.8 nm Ru 0.8 nm CoFe 3 nm ZnS 2 nm CoFe 1 nm Fe 4 nm Cu 10nm Ru 3nm performed at room temperature. Circles correspond to the measured data and the full line corresponds to Brinkman's fit. The inset represents the dynamic conductance (d I/dV) from the I–V measurement at room temperature for parallel (gray line) and ant parallel (black line) orientation.

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