Maitrayee Bose scite author profile

We report on studies of classical nova (CN) explosions where we follow the evolution of thermonuclear runaways (TNRs) on carbon-oxygen (CO) white dwarfs (WDs). We vary both the mass of the WD (from 0.6 M e to 1.35 M e ) and the composition of the accreted material. Our simulations are guided by the results of multidimensional studies of TNRs in WDs, which find that sufficient mixing with WD core material occurs after the TNR is well underway, and levels of enrichment are reached that agree with observations of CN ejecta abundances. We use NOVA (our one-dimensional hydrodynamic code) to accrete solar matter until the TNR is ongoing and then switch to a mixed composition (either 25% WD material and 75% solar or 50% WD material and 50% solar). Because the amount of accreted material is inversely proportional to the initial 12 C abundance, by first accreting solar matter the amount of material taking part in the outburst is larger than in those simulations where we assume a mixed composition from the beginning. Our results show large enrichments of 7 Be in the ejected gases, implying that CO CNe may be responsible for a significant fraction (∼100 M e ) of the 7 Li in the galaxy (∼1000 M e ). Although the ejected gases are enriched in WD material, the WDs in these simulations eject less material than they accrete. We predict that the WD is growing in mass as a consequence of the accretion-outburst-accretion cycle, and CO CNe may be an important channel for SN Ia progenitors.

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Rapid cooling and cold storage in a silicic magma reservoir recorded in individual crystals

Rubin

Cooper

Till

et al. 2017

Science

145

114

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Silicic volcanic eruptions pose considerable hazards, yet the processes leading to these eruptions remain poorly known. A missing link is knowledge of the thermal history of magma feeding such eruptions, which largely controls crystallinity and therefore eruptability. We have determined the thermal history of individual zircon crystals from an eruption of the Taupo Volcanic Zone, New Zealand. Results show that although zircons resided in the magmatic system for 10 to 10 years, they experienced temperatures >650° to 750°C for only years to centuries. This implies near-solidus long-term crystal storage, punctuated by rapid heating and cooling. Reconciling these data with existing models of magma storage requires considering multiple small intrusions and multiple spatial scales, and our approach can help to quantify heat input to and output from magma reservoirs.

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AN INVESTIGATION INTO THE ORIGIN OF Fe-RICH PRESOLAR SILICATES IN ACFER 094

Bose

Floss

Stadermann

2010

ApJ

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Circumstellar and interstellar material in the CO3 chondrite ALHA77307: An isotopic and elemental investigation

Bose¹,

Floss²,

Stadermann³

et al. 2012

Geochimica et Cosmochimica Acta

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Stardust Investigation Into the Cr Chondrite Grove Mountain 021710

Zhao

Floss

Lin

et al. 2013

ApJ

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Maitrayee Bose

Carbon–Oxygen Classical Novae Are Galactic ⁷Li Producers as well as Potential Supernova Ia Progenitors

Rapid cooling and cold storage in a silicic magma reservoir recorded in individual crystals

AN INVESTIGATION INTO THE ORIGIN OF Fe-RICH PRESOLAR SILICATES IN ACFER 094

Circumstellar and interstellar material in the CO3 chondrite ALHA77307: An isotopic and elemental investigation

Stardust Investigation Into the Cr Chondrite Grove Mountain 021710

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Maitrayee Bose

Carbon–Oxygen Classical Novae Are Galactic 7Li Producers as well as Potential Supernova Ia Progenitors

Rapid cooling and cold storage in a silicic magma reservoir recorded in individual crystals

AN INVESTIGATION INTO THE ORIGIN OF Fe-RICH PRESOLAR SILICATES IN ACFER 094

Circumstellar and interstellar material in the CO3 chondrite ALHA77307: An isotopic and elemental investigation

Stardust Investigation Into the Cr Chondrite Grove Mountain 021710

Contact Info

Product

Resources

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Carbon–Oxygen Classical Novae Are Galactic ⁷Li Producers as well as Potential Supernova Ia Progenitors