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Generation of CO2-rich melts during basalt magma ascent and degassing (2013)

Pichavant, M. ; Di Carlo, I. ; Rotolo, S. G. ; [et al.]

Springer Verlag Germany

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Publication Date: 2021-09-21

Description: To testmechanisms of basalticmagma degassing, continuous decompressions of volatile-bearing (2.7–3.8 wt% H2O, 600–1,300 ppm CO2) Stromboli melts were performed from 250–200 to 50–25 MPa at 1,180–1,140 C.Ascent rates were varied from 0.25 to *1.5 m/s. Glasses after decompression show a wide range of textures, from totally bubblefree to bubble-rich, the latter with bubble number densities from 104 to 106 cm-3, similar to Stromboli pumices. Vesicularities range from 0 to *20 vol%. Final melt H2O concentrations are homogeneous and always close to solubilities. In contrast, the rate of vesiculation controls the finalmelt CO2 concentration. High vesicularity charges have glass CO2 concentrations that follow theoretical equilibrium degassing paths, whereas glasses from low vesicularity charges show marked deviations from equilibrium, with CO2 concentrations up to one order of magnitude higher than solubilities. FTIR profiles and maps reveal glass CO2 concentration gradients near the gas–melt interface. Our results stress the importance of bubble nucleation and growth, and of volatile diffusivities, for basaltic melt degassing. Two characteristic distances, the gas interface distance (distance either between bubbles or to gas–melt interfaces) and the volatile diffusion distance, control the degassing process. Melts containing numerous and large bubbles have gas interface distances shorter than volatile diffusion distances, and degassing proceeds by equilibrium partitioning of CO2 and H2O between melt and gas bubbles. For melts where either bubble nucleation is inhibited or bubble growth is limited, gas interface distances are longer than volatile diffusion distances. Degassing proceeds by diffusive volatile transfer at the gas– melt interface and is kinetically limited by the diffusivities of volatiles in the melt. Our experiments show that CO2-oversaturated melts can be generated as a result of magma decompression. They provide a new explanation for the occurrence of CO2-rich natural basaltic glasses and open new perspectives for understanding explosive basaltic volcanism

Description: Published

Description: 545-561

Description: 3.5. Geologia e storia dei vulcani ed evoluzione dei magmi

Description: JCR Journal

Description: restricted

Keywords: Basaltic melts ; volatiles ; decompression experiments ; magma degassing ; 04. Solid Earth::04.08. Volcanology::04.08.02. Experimental volcanism

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Experimental simulation of bubble nucleation and magma ascent in basaltic systems: Implications for Stromboli volcano (2016)

Le Gall, N., Pichavant, M.

Mineralogical Society of America

In: American Mineralogist

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Publication Date: 2016-09-02

Description: The ascent of H 2 O- and H 2 O-CO 2 -bearing basaltic melts from the deeper to the shallower part of the Stromboli magmatic system and their vesiculation were simulated from decompression experiments. A well-studied "golden" pumice produced during an intermediate- to a large-scale paroxysm was used as starting material. Volatile-bearing glasses were synthesized at an oxygen fugacity $$({f}_{{\mathrm{O}}_{2}})$$ ranging from NNO–1.4 to +0.9, 1200 °C and 200 MPa. The resulting crystal- and bubble-free glasses were then isothermally (1200 °C) decompressed to final pressures P f ranging between 200 and 25 MPa, at a linear ascent rate of 1.5 m/s (or 39 kPa/s) prior to be rapidly quenched. Textures of post-decompression glasses that were characterized by X-ray computed tomography result from different mechanisms of degassing that include bubble nucleation, growth, coalescence, and outgassing, as well as fragmentation. Homogeneous bubble nucleation occurs for supersaturation pressures (difference between saturation pressure and pressure at which bubbles start to form homogeneously, P HoN ) ≤ 50 MPa. In the CO 2 -free melts, homogeneous nucleation occurs as two distinct events, the first at high P f (200–150 MPa) and the second at low P f (50–25 MPa) near the fragmentation level. In contrast, in the CO 2 -bearing melts, multiple events of homogeneous bubble nucleation occur over a substantial P f interval along the decompression path. Bubble coalescence occurs in both H 2 O- and H 2 O-CO 2 -bearing melts and is the more strongly marked between 100 and 50 MPa P f . The CO 2 -free melts follow equilibrium degassing until 100 MPa P f and are slightly supersaturated at 60 and 50 MPa P f , thus providing the driving force for the second bubble nucleation event. In comparison, disequilibrium degassing occurs systematically in the CO 2 -bearing melts that retain high CO 2 concentrations. Fragmentation was observed in some CO 2 -free charges decompressed to 25 MPa P f and is intimately associated with the occurrence of the second bubble nucleation event. Textures of H 2 O-CO 2 -bearing glasses reproduce certain critical aspects of the Stromboli natural textures (bubble number densities, shapes, sizes, and distributions) and chemistries (residual volatile concentrations). Average bubble sizes, bubble size distribution (BSD), and bubble number density (BND) data are used together to estimate that the "golden" pumice magmas ascend from their source region in 43 to 128 min.

Print ISSN: 0003-004X

Electronic ISSN: 1945-3027

Topics: Geosciences

Published by Mineralogical Society of America

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Thermally activated domain wall motion in [Co/Ni](111) superlattices with perpendicular magnetic anisotropy (2015)

S. Le Gall, N. Vernier, F. Montaigne, M. Gottwald, D. Lacour, M. Hehn, D. Ravelosona, S. Mangin, S. Andrieu and T. Hauet

American Institute of Physics (AIP)

In: Applied Physics Letters

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Publication Date: 2015-02-12

Description: Field-induced magnetization dynamics in a [Co/Ni] superlattice exhibiting strong perpendicular magnetic anisotropy is studied using Kerr microscopy. We report domain wall velocity over 8 decades within thermally activated, transitory, and flow dynamical regimes. At low field, the thermally activated regime is characterized by dendritic domain growth that differs from the creep mechanism usually observed for the interaction of domains wall with a 2D random pinning potential for layers grown by sputtering. This result is explained by the epitaxial nature of the [Co/Ni] superlattices involving a single-type defect. The transition from the thermally activated to the flow regime is characterized by a reduction of the density of non-reversed domains which exists after domain wall displacement.

Print ISSN: 0003-6951

Electronic ISSN: 1077-3118

Topics: Physics

Published by American Institute of Physics (AIP)

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Effect of spin transfer torque on domain wall motion regimes in [Co/Ni] superlattice wires (2017)

S. Le Gall, N. Vernier, F. Montaigne, A. Thiaville, J. Sampaio, D. Ravelosona, S. Mangin, S. Andrieu, and T. Hauet

American Physical Society (APS)

In: Physical Review B

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Publication Date: 2017-05-18

Description: Author(s): S. Le Gall, N. Vernier, F. Montaigne, A. Thiaville, J. Sampaio, D. Ravelosona, S. Mangin, S. Andrieu, and T. Hauet The combined effect of magnetic field and current on domain wall motion is investigated in epitaxial [Co/Ni] microwires. Both thermally activated and flow regimes are found to be strongly affected by current. All experimental data can be understood by taking into account both adiabatic and nonadiaba… [Phys. Rev. B 95, 184419] Published Wed May 17, 2017

Keywords: Magnetism

Print ISSN: 1098-0121

Electronic ISSN: 1095-3795

Topics: Physics

Published by American Physical Society (APS)

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