Suzanne Parete-Koon scite author profile

Suzanne Parete-Koon

3Publications

126Citation Statements Received

100Citation Statements Given

How they've been cited

133

118

How they cite others

125

Affiliations

Oak Ridge National Laboratory, University of Tennessee at Knoxville, Computational Sciences (United States)

Publications

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Strength of theF18(p,α)O15
Bardayan
¹
,
Batchelder
²
,
Blackmon
³

et al. 2002
Phys. Rev. Lett.
83
2
52
0
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Production of the radioisotope 18F in novae is severely constrained by the rate of the 18F(p,alpha)15O reaction. A resonance at E(c.m.)=330 keV may strongly enhance the 18F(p,alpha)15O reaction rate, but its strength has been very uncertain. We have determined the strength of this important resonance by measuring the 18F(p,alpha)15O cross section on and off resonance using a radioactive 18F beam at the ORNL Holifield Radioactive Ion Beam Facility. We find that its resonance strength is 1.48+/-0.46 eV, and that it dominates the 18F(p,alpha)15O reaction rate over a significant range of temperatures characteristic of ONeMg novae.

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A New¹⁷F(p, γ)¹⁸Ne Reaction Rate and Its Implications for Nova Nucleosynthesis

Parete-Koon

Hix

Smith

et al. 2003

ApJ

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Proton capture by 17 F plays an important role in the synthesis of nuclei in nova explosions. A revised rate for this reaction, based on a measurement of the 1 H( 17 F,p) 17 F excitation function using a radioactive 17 F beam at ORNL's Holifield Radioactive Ion Beam Facility, is used to calculate the nucleosynthesis in nova outbursts on the surfaces of 1.25 M ⊙ and 1.35 M ⊙ ONeMg white dwarfs and a 1.00 M ⊙ CO white dwarf. We find that the new 17 F (p,γ) 18 Ne reaction rate changes the abundances of some nuclides (e.g., 17 O) synthesized in the hottest zones of an explosion on a 1.35 M ⊙ white dwarf by more than a factor of 10 4 compared to calculations using some previous estimates for this reaction rate, and by more than a factor of 3 when the entire exploding envelope is considered. In a 1.25 M ⊙ white dwarf nova explosion, this new rate changes the abundances of some nuclides synthesized in the hottest zones by more than a factor of 600, and by more than a factor of 2 when the entire exploding envelope is considered. Calculations for the 1.00 M ⊙ white dwarf nova show that this new rate changes the abundance of 18 Ne by 21%, but has negligible effect on all other nuclides. Comparison of model predictions with observations is also discussed.

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The QSE‐Reduced Nuclear Reaction Network for Silicon Burning

Hix

Parete-Koon

Freiburghaus

et al. 2007

ApJ

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Joining a research group is like joining a family. I have been very fortunate in the academic family that I have found at the University of Tennessee and Oak Ridge National Laboratory. I would like to thank my advisors Raph Hix and Mike Guidry for their guidance, time, patience, and support throughout the process of this work. I would also like to express my appreciation to my committee members (Witek Nazarewic, Mark Littmann, and Kate Jones) for taking the time to be on my committee, review my work, and provide helpful insight. I would like to thank Bronson Messer for help with FLASH and insightful discussions. Great thanks to Mark Littman, Marissa Mills, Betty Mansfield, Catherine Longmire, and Jack Neely for guiding my development as a science writer and introducing me to the world of science journalism. I would also like to thank my many academic siblings and cousins (Marc, Reuben,

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