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Literature DB >> 11017609

In situ X-Ray study of thermal expansion and phase transition of iron at multimegabar pressure

Abstract

The density of varepsilon-iron has been calculated at pressures and temperatures up to 300 GPa and 1300 K, respectively. We observe varepsilon to beta phase transition at pressures between 135 and 300 GPa and temperature above 1350 K; the pattern can be interpreted in terms of double hexagonal close-packed structure. The density calculated at high pressure and temperature (330-360 GPa and 5000-7000 K) closely matches with preliminary reference Earth model density, thereby imposing constraint on the composition of the Earth's inner core.

Entities: Chemical

Year: 2000 PMID： 11017609 DOI： 10.1103/PhysRevLett.84.1720

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

In situ X-Ray study of thermal expansion and phase transition of iron at multimegabar pressure

1. Aggregate sound velocities and acoustic Grüneisen parameter of iron up to 300 GPa and 1,200 K.

2. Direct measurement of thermal conductivity in solid iron at planetary core conditions.

3. Toward an internally consistent pressure scale.

4. Thermal expansion of iron-rich alloys and implications for the Earth's core.

5. Possible generation of heat from nuclear fusion in Earth's inner core.

6. Synthesis of FeN₄ at 180 GPa and its crystal structure from a submicron-sized grain.

In situ X-Ray study of thermal expansion and phase transition of iron at multimegabar pressure

1. Aggregate sound velocities and acoustic Grüneisen parameter of iron up to 300 GPa and 1,200 K.

2. Direct measurement of thermal conductivity in solid iron at planetary core conditions.

3. Toward an internally consistent pressure scale.

4. Thermal expansion of iron-rich alloys and implications for the Earth's core.

5. Possible generation of heat from nuclear fusion in Earth's inner core.

6. Synthesis of FeN4 at 180 GPa and its crystal structure from a submicron-sized grain.

6. Synthesis of FeN₄ at 180 GPa and its crystal structure from a submicron-sized grain.