Your search keyword '"Macon, K."' showing total 104 results

1. $^{54}$Fe($d$,$p$)$^{55}$Fe and the evolution of single neutron energies in the $N=29$ isotones

Author

Riley, L. A., Hay, I. C. S., Baby, L. T., Conley, A. L., Cottle, P. D., Esparza, J., Hanselman, K., Kelly, B., Kemper, K. W., Macon, K. T., McCann, G. W., Quirin, M. W., Renom, R., Saunders, R. L., Spieker, M., and Wiedenhöver, I.

Subjects

Nuclear Experiment

Abstract

A measurement of the $^{54}$Fe($d$,$p$)$^{55}$Fe reaction at 16 MeV was performed using the Florida State University Super-Enge Split-Pole Spectrograph to determine single-neutron energies for the $2p_{3/2}$, $2p_{1/2}$, $1f_{5/2}$, $1g_{9/2}$ and $2d_{5/2}$ orbits. Two states were observed that had not been observed in previous (d, p) measurements. In addition, we made angular momentum transfer, \textit{L}, assignments to four states and changed \textit{L} assignments from previous ($d$, $p$) measurements for nine more states. The spin-orbit splitting between the $2p_{3/2}$ and $2p_{1/2}$ orbits is similar to that in the other $N=29$ isotones and not close to zero as a previous measurement suggested. While the $1f_{5/2}$ single neutron energy is significantly lower in $^{55}$Fe than in $^{51}$Ti, as predicted by a covariant density functional theory calculation, the single-neutron energy for this orbit in $^{55}$Fe is more than 1 MeV higher than the calculation suggests, although it is only 400 keV above the $2p_{1/2}$ orbit. The summed spectroscopic strength we observed for the $1g_{9/2}$ orbit up to the single-neutron separation energy of 9.3 MeV is only 0.3. This is surprising because the $1g_{9/2}$ orbit is predicted by Togashi \textit{et al.} to be located only 5.5 MeV above the $2p_{3/2}$ orbit., Comment: 16 pages, 6 figures. arXiv admin note: text overlap with arXiv:2106.05781

Published

2022

2. Measurement of the $^{18}$Ne($\alpha,p$)$^{21}$Na reaction with ANASEN at $E_{c.m.} = $ 2.5-4 MeV

Author

Anastasiou, M., Wiedenhöver, I., Blackmon, J. C., Baby, L. T., Caussyn, D. D., Hood, A. A., Koshchiy, E., Lighthall, J. C., Macon, K. T., Parker, J. J., Rauscher, T., and Rijal, N.

Subjects

Nuclear Experiment

Abstract

The $^{18}$Ne($\alpha,p$)$^{21}$Na reaction plays a significant role in Type-I X-ray bursts. It is a major path in the breakout from the hot-CNO cycles to the synthesis of heavier elements in the $\alpha p$-- and $rp$-processes. An experiment to determine the cross section of this reaction was performed with the ANASEN active-target detector system, determining the cross section at energies between 2.5 and 4 MeV in the center-of-mass frame. The measured cross sections for reactions populating the ground state in $^{21}$Na are consistent with results obtained from the time-inverse reaction, but significantly lower than the previously published experimental data of direct measurements. The total cross sections are also compared with those derived from indirect methods and statistical-model calculations. This experiment establishes a new experimental data set on the excitation function of the $^{18}$Ne($\alpha,p$)$^{21}$Na reaction, revealing the significance of the excited states' contributions to the total reaction cross section and allowing to separate the contribution of the $(\alpha,2p)$ reaction. The impact of the measured cross section on thermal reaction rates is discussed.

Published

2021

3. New measurement of $^{12}$C+$^{12}$C fusion reaction at astrophysical energies

Author

Tan, W. P., Boeltzig, A., Dulal, C., deBoer, R. J., Frentz, B., Henderson, S., Howard, K. B., Kelmar, R., Kolata, J. J., Long, J., Macon, K. T., Moylan, S., Peaslee, G. F., Renaud, M., Seymour, C., Seymour, G., Kolk, B. Vande, Wiescher, M., Aguilera, E. F., Amador-Valenzuela, P., Lizcano, D., and Martinez-Quiroz, E.

Subjects

Nuclear Experiment

Abstract

Carbon and oxygen burning reactions, in particular, $^{12}$C+$^{12}$C fusion, are important for the understanding and interpretation of the late phases of stellar evolution as well as the ignition and nucleosynthesis in cataclysmic binary systems such as type Ia supernovae and x-ray superbursts. A new measurement of this reaction has been performed at the University of Notre Dame using particle-$\gamma$ coincidence techniques with SAND (a silicon detector array) at the high-intensity 5U Pelletron accelerator. New results for $^{12}$C+$^{12}$C fusion at low energies relevant to nuclear astrophysics are reported. They show strong disagreement with a recent measurement using the indirect Trojan Horse method. The impact on the carbon burning process under astrophysical scenarios will be discussed., Comment: accepted for publication in Phys. Rev. Lett

Published

2020

4. Low-Background gamma counting at the Kimballton Underground Research Facility

Author

Finnerty, P., MacMullin, S., Back, H. O., Henning, R., Long, A., Macon, K. T., Strain, J., Lindstrom, R. M., and Vogelaar, R. B.

Subjects

Nuclear Experiment, Physics - Instrumentation and Detectors

Abstract

The next generation of low-background physics experiments will require the use of materials with unprecedented radio-purity. A gamma-counting facility at the Kimballton Underground Research Facility (KURF) has been commissioned to perform initial screening of materials for radioactivity primarily from nuclides in the 238U and 232Th decay chains, 40K and cosmic-ray induced isotopes. The facility consists of two commercial low-background high purity germanium (HPGe) detectors. A continuum background reduction better than a factor of 10 was achieved by going underground. This paper describes the facility, detector systems, analysis techniques and selected assay results., Comment: 7 pages, 7 figures. Submitted to NIMA

Published

2010

5. Determining the 14O(α,p)17F astrophysical rate from Measurements at TwinSol

Author

Bardayan, D.W., Ahn, T., Allen, J.M., Brodeur, M., Frentz, B., Gupta, Y.K., Hall, M.R., Hall, O., Henderson, S., Hu, J., Kelly, J.M., Kolata, J.J., Long, A., Nicoloff, C., O’Malley, P.D., Ostdiek, K., Smith, M.K., Strauss, S., Becchetti, F.D., Riggins, J., Torres-Isea, R.O., Blackmon, J.C., Macon, K., Chipps, K.A., Pain, S.D., and Rogers, A.M.

Published

2017

6. Investigation of the N14(p,γ)O15 reaction and its impact on the CNO cycle

Author

Frentz, B., primary, Aprahamian, A., additional, Boeltzig, A., additional, Borgwardt, T., additional, Clark, A. M., additional, deBoer, R. J., additional, Gilardy, G., additional, Görres, J., additional, Hanhardt, M., additional, Henderson, S. L., additional, Howard, K. B., additional, Kadlecek, T., additional, Liu, Q., additional, Macon, K. T., additional, Moylan, S., additional, Reingold, C. S., additional, Robertson, D., additional, Seymour, C., additional, Strauss, S. Y., additional, Strieder, F., additional, Vande Kolk, B., additional, and Wiescher, M., additional

Published

2022

7. Fe54(d,p)Fe55 and the evolution of single neutron energies in the N=29 isotones

Author

Riley, L. A., primary, Hay, I. C. S., additional, Baby, L. T., additional, Conley, A. L., additional, Cottle, P. D., additional, Esparza, J., additional, Hanselman, K., additional, Kelly, B., additional, Kemper, K. W., additional, Macon, K. T., additional, McCann, G. W., additional, Quirin, M. W., additional, Renom, R., additional, Saunders, R. L., additional, Spieker, M., additional, and Wiedenhöver, I., additional

Published

2022

8. Investigation of direct capture in the Na23(p,γ)Mg24 reaction

Author

Boeltzig, A., primary, deBoer, R. J., additional, Chen, Y., additional, Best, A., additional, Couder, M., additional, Di Leva, A., additional, Frentz, B., additional, Görres, J., additional, Gyürky, Gy., additional, Imbriani, G., additional, Junker, M., additional, Liu, Q., additional, Lyons, S., additional, Manukyan, K., additional, Macon, K. T., additional, Morales, L., additional, Moran, M. T., additional, Odell, D., additional, Seymour, C., additional, Seymour, G., additional, Stech, E., additional, Vande Kolk, B., additional, and Wiescher, M., additional

Published

2022

9. Investigation of direct capture in the Na23(p,γ)Mg24 reaction

Author

Boeltzig, A., deBoer, R. J., Chen, Y., Best, A., Couder, M., Di Leva, A., Frentz, B., Görres, J., Gyürky, Gy., Imbriani, G., Junker, M., Liu, Q., Lyons, S., Manukyan, K., Macon, K. T., Morales, L., Moran, M. T., Odell, D., Seymour, C., Seymour, G., Stech, E., Vande Kolk, B., Wiescher, M., Boeltzig, A., Deboer, R. J., Chen, Y., Best, A., Couder, M., Di Leva, A., Frentz, B., Görres, J., Gyürky, Gy., Imbriani, G., Junker, M., Liu, Q., Lyons, S., Manukyan, K., Macon, K. T., Morales, L., Moran, M. T., Odell, D., Seymour, C., Seymour, G., Stech, E., Vande Kolk, B., and Wiescher, M.

Published

2022

10. Measurement of neutron-capture cross sections of Ge70,72 using the DANCE facility

Author

Laminack, A., primary, Blackmon, J. C., additional, Couture, A., additional, Greene, J. P., additional, Krtička, M., additional, Macon, K. T., additional, Mosby, S., additional, Prokop, C., additional, Ullmann, J. L., additional, and Valenta, S., additional

Published

2022

11. Measurement of the Ne18(α,p)Na21 reaction with the ANASEN active-target detector system at Ec.m.=2.5–4 MeV

Author

Anastasiou, M., primary, Wiedenhöver, I., additional, Blackmon, J. C., additional, Baby, L. T., additional, Caussyn, D. D., additional, Hood, A. A., additional, Koshchiy, E., additional, Lighthall, J. C., additional, Macon, K. T., additional, Parker, J. J., additional, Rauscher, T., additional, and Rijal, N., additional

Published

2022

12. Investigation of the B10(p,α)Be7 reaction from 0.8 to 2.0 MeV

Author

Kolk, B. Vande, primary, Macon, K. T., additional, deBoer, R. J., additional, Anderson, T., additional, Boeltzig, A., additional, Brandenburg, K., additional, Brune, C. R., additional, Chen, Y., additional, Clark, A. M., additional, Danley, T., additional, Frentz, B., additional, Giri, R., additional, Görres, J., additional, Hall, M., additional, Henderson, S. L., additional, Holmbeck, E., additional, Howard, K. B., additional, Jacobs, D., additional, Lai, J., additional, Liu, Q., additional, Long, J., additional, Manukyan, K., additional, Massey, T., additional, Moran, M., additional, Morales, L., additional, Odell, D., additional, O'Malley, P., additional, Paneru, S. N., additional, Richard, A., additional, Schneider, D., additional, Skulski, M., additional, Sensharma, N., additional, Seymour, C., additional, Seymour, G., additional, Soltesz, D., additional, Strauss, S., additional, Voinov, A., additional, Wüstrich, L., additional, and Wiescher, M., additional

Published

2022

13. Investigation of the ¹⁴N(p,γ)¹⁵O reaction and its impact on the CNO cycle

Author

Frentz, B., Aprahamian, A., Boeltzig, A., Borgwardt, T., Clark, A. M., Deboer, R. J., Gilardy, G., Görres, J., Hanhardt, M., Henderson, S. L., Howard, K. B., Kadlecek, T., Liu, Q., Macon, K. T., Moylan, S., Reingold, C. S., Robertson, D., Seymour, C., Strauss, S. Y., Strieder, F., Vande Kolk, B., and Wiescher, M.

Abstract

The CNO cycle is the main energy source in massive stars during their hydrogen burning phase, and, for our sun, it contributes at the ≈1% level. As the ¹⁴N(p,γ)¹⁵O reaction is the slowest in the cycle, it determines the CNO energy production rate and thus the CNO contribution to the solar neutrino flux. These CNO neutrinos are produced primarily from the β decay of ¹⁵O and, to a lesser extent, from the decay of ¹³N. Solar CNO neutrinos are challenging to detect, but they can provide independent new information on the metallicity of the solar core. Recently, CNO neutrinos from ¹⁵O have been identified for the first time with the Borexino neutrino detector at the INFN Gran Sasso underground laboratory. There are, however, still some considerable uncertainties in the ¹⁴N(p,γ)¹⁵O reaction rate under solar temperature conditions. The low energy reaction data presented here, measured at the CASPAR underground accelerator, aim at connecting existing measurements at higher energies and attempts to shed light on the discrepancies between the various data sets, while moving towards a better understanding of the ¹⁴N(p,γ)¹⁵O reaction cross section. The present measurements span proton energies between 0.27 and 1.07 MeV, closing a critical gap in the existing data. A multichannel R-matrix analysis was performed with the entire new and existing data sets and is used to extrapolate the astrophysical S factors of the ground state and the 6.79 MeV transition to low energies. The extrapolations are found to be in agreement with previous work, but find that the discrepancies between measured data and R-matrix fits, both past and present, still exist. We examine the possible reasons for these discrepancies and thereby provide recommendations for future studies.

Published

2022

14. Investigation of the ¹⁰B(p,α)⁷Be reaction from 0.8 to 2.0 MeV

Author

Vande Kolk, B., Macon, K. T., Deboer, R. J., Anderson, T., Boeltzig, A., Brandenburg, K., Brune, C. R., Chen, Y., Clark, A. M., Danley, T., Frentz, B., Giri, R., Görres, J., Hall, M., Henderson, S. L., Holmbeck, E., Howard, K. B., Jacobs, D., Lai, J., Liu, Q., Long, J., Manukyan, K., Massey, T., Moran, M., Morales, L., Odell, D., O'Malley, P., Paneru, S. N., Richard, A., Schneider, D., Skulski, M., Sensharma, N., Seymour, C., Seymour, G., Soltesz, D., Strauss, S., Voinov, A., Wüstrich, L., and Wiescher, M.

Abstract

Background: A multitude of broad interfering resonances characterize the ¹⁰B(p,α)⁷Be cross section at low energies. The complexity of the reaction mechanism, as well as conflicting experimental measurements, have so far prevented a reliable prediction of the cross section over the energy ranges pertinent for a boron-proton fusion reactor environment. Purpose: To improve the evaluated cross section of the ¹⁰B(p,α)⁷Be reaction, this study targets the proton energy region from 0.8 to 2.0 MeV, where kinematic overlap of the scattered protons and reaction α particles have made past measurements very challenging. Method: New detailed studies of the reaction have been performed at the Edwards Accelerator Laboratory at Ohio University and the Nuclear Science Laboratory at the University of Notre Dame using time-of-flight and degrader foil techniques, respectively. Results: Proton and α-particle signals were clearly resolved using both techniques, and 16 point differential cross sections were measured over an angular range of θlab=45° and 157.5°. A comprehensive R-matrix analysis of the experimental data, including data from previous low-energy studies of the ¹⁰B(p,α)⁷Be, ¹⁰B(p,p)¹⁰B, and ¹⁰B(p,γ)¹¹C reactions, was achieved over the region of measurement. Using a representative set of previous data, the fit was extended to very low energies. Conclusions: On the basis of this data and R-matrix analysis, a more reliable and consistent description of the ¹⁰B(p,α)⁷Be cross section has been established. The uncertainty over the energy range of this study has been reduced from ≈20% to ≈10%, and the level structure over this region has been clarified considerably.

Published

2022

15. Investigation of secondary γ -ray angular distributions using the N 15 (p,α1γ) C ∗ 12 reaction

Author

Deboer R. J., Boeltzig A., Macon K. T., Aguilar S., Gomez O., Frentz B., Henderson S. L., Kelmar R., Renaud M., Seymour G., Kolk B. V., Wiescher M., Brune C. R., Burcher S. P., Jones K. L., Kovoor J. M., Febbraro M., Imbriani G., Mosby S., Smith K., Toomey R., Deboer, R. J., Boeltzig, A., Macon, K. T., Aguilar, S., Gomez, O., Frentz, B., Henderson, S. L., Kelmar, R., Renaud, M., Seymour, G., Kolk, B. V., Wiescher, M., Brune, C. R., Burcher, S. P., Jones, K. L., Kovoor, J. M., Febbraro, M., Imbriani, G., Mosby, S., Smith, K., and Toomey, R.

Subjects

Experimental N nuclear Astrophysics

Abstract

The observation of secondary γ-rays provides an alternative method of measuring cross sections that populate excited final states in nuclear reactions. The angular distributions of these γ-rays also provide information on the underlying reaction mechanism. Despite the large number of data of this type in the literature, publicly available R-matrix codes do not have the ability to calculate these types of angular distributions. In this paper, the mathematical formalism derived by C. R. Brune and R. J. deBoer [Phys. Rev. C 102, 024628 (2020)2469-998510.1103/PhysRevC.102.024628] is implemented in the R-matrix code azure2 and calculations are compared with previous data from the literature for the N15(p,α1γ)C∗12 reaction. In addition, new measurements, made at the University of Notre Dame Nuclear Science Laboratory using the Hybrid Array of Gamma Ray Detectors (HAGRiD), are reported that span the energy range from Ep=0.88 MeV to Ep=4.0MeV. Excellent agreement between the data and the phenomenological fit is obtained up to the limit of the previous fit at Ep=2.0MeV and the R-matrix fit is extended from Ex≈13.5 MeV up to Ex≈15.3 MeV, where N15+p and C12+α reactions are fit simultaneously for the first time. An excellent reproduction of the N15(p,α1γ)C∗12 and C12(α,α)C12 data is achieved, but inconsistencies and difficulty in fitting other data are encountered and discussed.

Published

2021

16. Studies of X-ray burst reactions with radioactive ion beams from RESOLUT

Author

Blackmon J. C., Wiedenhöver I., Belarge J., Kuvin S. A., Anastasiou M., Baby L. T., Baker J., Colbert K., Deibel C. M., de Lucio O., Gardiner H. E., Gay D. L., Good E., Höflich P., Hood A. A. D., Keely N., Lai J., Laminack A., Linhardt L. E., Lighthall J., Macon K. T., Need E., Quails N., Rasco B. C., Rijal N., and Volya A.

Subjects

Physics, QC1-999

Abstract

Reactions on certain proton-rich, radioactive nuclei have been shown to have a significant influence on X-ray bursts. We provide an overview of two recent measurements of important X-ray burst reactions using in-flight radioactive ion beams from the RESOLUT facility at the J. D. Fox Superconducting Accelerator Laboratory at Florida State University. The 17F(d,n)18Ne reaction was measured, and Asymptotic Normalization Coefficients were extracted for bound states in 18Ne that determine the direct-capture cross section dominating the 17F(p,γ)18Ne reaction rate for T≲ 0.45 GK. Unbound resonant states were also studied, and the single-particle strength for the 4.523-MeV (3+) state was found to be consistent with previous results. The 19Ne(d,n)20Na proton transfer reaction was used to study resonances in the 19Ne(p,γ)20Na reaction. The most important 2.65-MeV state in 20Na was observed to decay by proton emission to both the ground and first-excited states in 19Ne, providing strong evidence for a 3+ spin assignment and indicating that proton capture on the thermally-populated first-excited state in 19Ne is an important contributor to the 19Ne(p,γ)20Na reaction rate.

Published

2017

17. Investigation of secondary γ -ray angular distributions using the N15(p,α1γ)C*12 reaction

Author

deBoer, R. J., primary, Boeltzig, A., additional, Macon, K. T., additional, Aguilar, S., additional, Gomez, O., additional, Frentz, B., additional, Henderson, S. L., additional, Kelmar, R., additional, Renaud, M., additional, Seymour, G., additional, Kolk, B. Vande, additional, Wiescher, M., additional, Brune, C. R., additional, Burcher, S. P., additional, Jones, K. L., additional, Kovoor, J. M., additional, Febbraro, M., additional, Imbriani, G., additional, Mosby, S., additional, Smith, K., additional, and Toomey, R., additional

Published

2021

18. Ti50(d,p)Ti51 : Single-neutron energies in the N=29 isotones, and the N=32 subshell closure

Author

Riley, L. A., primary, Nebel-Crosson, J. M., additional, Macon, K. T., additional, McCann, G. W., additional, Baby, L. T., additional, Caussyn, D., additional, Cottle, P. D., additional, Esparza, J., additional, Hanselman, K., additional, Kemper, K. W., additional, Temanson, E., additional, and Wiedenhöver, I., additional

Published

2021

19. Enhancing the Detector for Advanced Neutron Capture Experiments

Author

Couture A., Mosby S., Baramsai B., Bredeweg T. A., Jandel M., Macon K., O’Donnell J. M., Rusev G., Taddeucci T. N, Ullmann J. L., and Walker C. L.

Subjects

Physics, QC1-999

Abstract

The Detector for Advanced Neutron Capture Experiments (DANCE) has been used for extensive studies of neutron capture, gamma decay, photon strength functions, and prompt and delayed fission-gamma emission. Despite these successes, the potential measurements have been limited by the data acquisition hardware. We report on a major upgrade of the DANCE data acquisition that simultaneously enables strait-forward coupling to auxiliary detectors, including high-resolution high-purity germanium detectors and neutron tagging array. The upgrade will enhance the time domain accessible for time-of-flight neutron measurements as well as improve the resolution in the DANCE barium fluoride crystals for photons.

Published

2015

20. Intensity of a weak 519-keV γ ray following β decay of the superallowed emitter Ar34 determined via the S33 ( p,γ ) Cl34 reaction

Author

Park, H. I., primary, Hardy, J. C., additional, Bencomo, M., additional, Iacob, V. E., additional, Towner, I. S., additional, Macon, K. T., additional, Tan, W. P., additional, Brodeur, M., additional, Boeltzig, A., additional, Frentz, B., additional, Henderson, S. L., additional, Long, J., additional, McGuinness, S., additional, Olivas-Gomez, O., additional, O'Malley, P., additional, Seymour, G., additional, Vande Kolk, B., additional, and Kayani, A., additional

Published

2020

21. Cross-section measurements to low-lying excited final states in the Mg24(α,p)Al*27(γ) reaction as an energy source for x-ray bursts

Author

Ahn, T., primary, Aguilar, S., additional, deBoer, R. J., additional, Bardayan, D. W., additional, Boeltzig, A., additional, Brune, C. R., additional, Burcher, S. P., additional, Chae, K. Y., additional, Henderson, S. L., additional, Grzywacz, R. K., additional, Jones, K. L., additional, Kovoor, J. M., additional, Macon, K. T., additional, Manukyan, K., additional, Mosby, S., additional, O'Malley, P. D., additional, Renaud, M., additional, Smith, K., additional, Thornsberry, C., additional, Vande Kolk, B., additional, and Wiescher, M., additional

Published

2020

22. New C13(α,n)O16 Cross Section with Implications for Neutrino Mixing and Geoneutrino Measurements

Author

Febbraro, M., primary, deBoer, R. J., additional, Pain, S. D., additional, Toomey, R., additional, Becchetti, F. D., additional, Boeltzig, A., additional, Chen, Y., additional, Chipps, K. A., additional, Couder, M., additional, Jones, K. L., additional, Lamere, E., additional, Liu, Q., additional, Lyons, S., additional, Macon, K. T., additional, Morales, L., additional, Peters, W. A., additional, Robertson, D., additional, Rasco, B. C., additional, Smith, K., additional, Seymour, C., additional, Seymour, G., additional, Smith, M. S., additional, Stech, E., additional, Kolk, B. Vande, additional, and Wiescher, M., additional

Published

2020

23. New Measurement of C12+C12 Fusion Reaction at Astrophysical Energies

Author

Tan, W. P., primary, Boeltzig, A., additional, Dulal, C., additional, deBoer, R. J., additional, Frentz, B., additional, Henderson, S., additional, Howard, K. B., additional, Kelmar, R., additional, Kolata, J. J., additional, Long, J., additional, Macon, K. T., additional, Moylan, S., additional, Peaslee, G. F., additional, Renaud, M., additional, Seymour, C., additional, Seymour, G., additional, Vande Kolk, B., additional, Wiescher, M., additional, Aguilera, E. F., additional, Amador-Valenzuela, P., additional, Lizcano, D., additional, and Martinez-Quiroz, E., additional

Published

2020

24. Precision Measurements of the \(^{24}\text{Mg}(\alpha ,p\gamma )^{27}\text{Al}\) and \(^{27}\text{Al}(p,\alpha \gamma )^{24}\text{Mg}\) Cross Sections

Author

Ahn, T., primary, Aguilar, S., additional, deBoer, R. J., additional, Bardayan, D. W., additional, Boeltzig, A., additional, Brune, C. R., additional, Burcher, S. P., additional, Chae, K. Y., additional, Henderson, S. L., additional, Jin, S., additional, Jones, K. L., additional, Kovoor, J., additional, Macon, K. T., additional, Majumdar, A., additional, Manukyan, K., additional, Morales, L., additional, Mosby, S., additional, Moylan, S., additional, O’Malley, P. D., additional, Renaud, M., additional, Smith, K., additional, Tan, W., additional, Vande Kolk, B., additional, and Wiescher, M., additional

Published

2020

25. Low-energy cross-section measurement of the B10(α,n)N13 reaction and its impact on neutron production in first-generation stars

Author

Liu, Q., primary, Febbraro, M., additional, deBoer, R. J., additional, Aguilar, S., additional, Boeltzig, A., additional, Chen, Y., additional, Couder, M., additional, Görres, J., additional, Lamere, E., additional, Lyons, S., additional, Macon, K. T., additional, Manukyan, K., additional, Morales, L., additional, Pain, S., additional, Peters, W. A., additional, Seymour, C., additional, Seymour, G., additional, Toomey, R., additional, Kolk, B. Vande, additional, Weaver, J., additional, and Wiescher, M., additional

Published

2020

26. Precision half-life measurement of P29

Author

Long, J., primary, Brodeur, M., additional, Baines, M., additional, Bardayan, D. W., additional, Becchetti, F. D., additional, Blankstein, D., additional, Boomershine, C., additional, Burdette, D. P., additional, Clark, A. M., additional, Frentz, B., additional, Henderson, S. L., additional, Kelly, J. M., additional, Kolata, J. J., additional, Liu, B., additional, Macon, K. T., additional, O'Malley, P. D., additional, Pardo, A., additional, Seymour, C., additional, Strauss, S. Y., additional, and Vande Kolk, B., additional

Published

2020

27. Measurement of the B10(α,n0)13N cross section for 2.2<Eα<4.9MeV and its application as a diagnostic at the National Ignition Facility

Author

Liu, Q., primary, Febbraro, M., additional, deBoer, R. J., additional, Boeltzig, A., additional, Chen, Y., additional, Cerjan, C., additional, Couder, M., additional, Frentz, B., additional, Görres, J., additional, Henry, E. A., additional, Lamere, E., additional, Macon, K. T., additional, Manukyan, K. V., additional, Morales, L., additional, O'Malley, P. D., additional, Pain, S. D., additional, Peters, W. A., additional, Schneider, D., additional, Seymour, C., additional, Seymour, G., additional, Temanson, E., additional, Toomey, R., additional, Vande Kolk, B., additional, Weaver, J., additional, and Wiescher, M., additional

Published

2019

28. Resolving the discrepancy in the half-life of F20

Author

Burdette, D. P., primary, Brodeur, M., additional, Ahn, T., additional, Allen, J., additional, Bardayan, D. W., additional, Becchetti, F. D., additional, Blankstein, D., additional, Brown, G., additional, Frentz, B., additional, Hall, M. R., additional, King, S., additional, Kolata, J. J., additional, Long, J., additional, Macon, K. T., additional, Nelson, A., additional, O'Malley, P. D., additional, Seymour, C., additional, Skulski, M., additional, Strauss, S. Y., additional, and Valverde, A. A., additional

Published

2019

29. Precision half-life measurement of C11 : The most precise mirror transition Ft value

Author

Valverde, A. A., primary, Brodeur, M., additional, Ahn, T., additional, Allen, J., additional, Bardayan, D. W., additional, Becchetti, F. D., additional, Blankstein, D., additional, Brown, G., additional, Burdette, D. P., additional, Frentz, B., additional, Gilardy, G., additional, Hall, M. R., additional, King, S., additional, Kolata, J. J., additional, Long, J., additional, Macon, K. T., additional, Nelson, A., additional, O'Malley, P. D., additional, Skulski, M., additional, Strauss, S. Y., additional, and Vande Kolk, B., additional

Published

2018

30. Measurement of F17 ( d,n ) Ne18 and the impact on the F17 ( p,γ ) Ne18 reaction rate for astrophysics

Author

Kuvin, S. A., primary, Belarge, J., additional, Baby, L. T., additional, Baker, J., additional, Wiedenhöver, I., additional, Höflich, P., additional, Volya, A., additional, Blackmon, J. C., additional, Deibel, C. M., additional, Gardiner, H. E., additional, Lai, J., additional, Linhardt, L. E., additional, Macon, K. T., additional, Rasco, B. C., additional, Quails, N., additional, Colbert, K., additional, Gay, D. L., additional, and Keeley, N., additional

Published

2017

31. Determining the 14 O(α,p) 17 F astrophysical rate from Measurements at TwinSol

Author

Bardayan, D.W., primary, Ahn, T., additional, Allen, J.M., additional, Brodeur, M., additional, Frentz, B., additional, Gupta, Y.K., additional, Hall, M.R., additional, Hall, O., additional, Henderson, S., additional, Hu, J., additional, Kelly, J.M., additional, Kolata, J.J., additional, Long, A., additional, Nicoloff, C., additional, O’Malley, P.D., additional, Ostdiek, K., additional, Smith, M.K., additional, Strauss, S., additional, Becchetti, F.D., additional, Riggins, J., additional, Torres-Isea, R.O., additional, Blackmon, J.C., additional, Macon, K., additional, Chipps, K.A., additional, Pain, S.D., additional, and Rogers, A.M., additional

Published

2017

32. Experimental Investigation of the Ne19(p,γ)20Na Reaction Rate and Implications for Breakout from the Hot CNO Cycle

Author

Belarge, J., primary, Kuvin, S. A., additional, Baby, L. T., additional, Baker, J., additional, Wiedenhöver, I., additional, Höflich, P., additional, Volya, A., additional, Blackmon, J. C., additional, Deibel, C. M., additional, Gardiner, H. E., additional, Lai, J., additional, Linhardt, L. E., additional, Macon, K. T., additional, Need, E., additional, Rasco, B. C., additional, Quails, N., additional, Colbert, K., additional, Gay, D. L., additional, and Keeley, N., additional

Published

2016

33. Recent Nuclear Astrophysics Measurements using the TwinSol Separator

Author

Bardayan, D W, primary, Ahn, T, additional, Allen, J, additional, Becchetti, F D, additional, Blackmon, J C, additional, Brodeur, M, additional, Frentz, B, additional, Gupta, Y K, additional, Hall, M R, additional, Hall, O, additional, Henderson, S, additional, Hu, J, additional, Kelly, J M, additional, Kolata, J J, additional, Long, A, additional, Long, J, additional, Macon, K, additional, Nicoloff, C, additional, O'Malley, P D, additional, Ostdiek, K, additional, Pain, S D, additional, Riggins, J, additional, Schultz, B E, additional, Smith, M, additional, Strauss, S, additional, and Torres-Isea, R O, additional

Published

2016

34. Clustering in non-self-conjugate nuclei10Be and18O

Author

Rogachev, G V, primary, Avila, M L, additional, Kuchera, A N, additional, Baby, L T, additional, Belarge, J, additional, Blackmon, J, additional, Goldberg, V Z, additional, Johnson, E D, additional, Kemper, K W, additional, Koshchiy, E, additional, Linhardt, L, additional, Macon, K, additional, Santiago-Gonzalez, D, additional, and Wiedenhöver, I, additional

Published

2014

35. STUDIES OF EXOTIC NUCLEI AT THE RESOLUT FACILITY OF FLORIDA STATE UNIVERSITY

Author

WIEDENHÖVER, I., primary, BABY, L. T., additional, SANTIAGO-GONZALEZ, D., additional, ROJAS, A., additional, BlACKMON, J. C., additional, ROGACHEV, G. V., additional, BELARGE, J., additional, KOSHCHIY, E., additional, KUCHERA, A. N., additional, LINHARDT, L. E., additional, LAIL, J., additional, MACON, K. T., additional, MATOS, M., additional, and RASCOL, B. C., additional

Published

2013

36. THE ARRAY FOR NUCLEAR ASTROPHYSICS STUDIES WITH EXOTIC NUCLEI (ANASEN)

Author

MATOS, M., primary, BLACKMON, J. C., additional, GARDINER, H. E., additional, LINHARDT, L. E., additional, MACON, K. T., additional, MONDELLO, L. L., additional, BABY, L., additional, JOHNSON, E., additional, KOSHCHIY, E., additional, ROGACHEV, G., additional, WIEDENHÖVER, I., additional, and BARDAYAN, D. W., additional

Published

2013

37. Clustering in A=10 nuclei

Author

Rogachev, G V, primary, Baby, L, additional, Belarge, J, additional, Blackmon, J C, additional, Goldberg, V Z, additional, Johnson, E D, additional, Koshchiy, E, additional, Kuchera, A N, additional, Lai, J, additional, Linhardt, L, additional, Macon, K, additional, Matos, M, additional, Santiago-Gonzalez, D, additional, and Wiedenhöver, I, additional

Published

2013

38. Structure of light nuclei in resonance scattering experiments

Author

Rogachev, G. V., primary, Avila, M., additional, Baby, L. T., additional, Blackmon, J., additional, Goldberg, V. Z., additional, Johnson, E. D., additional, Matos, M., additional, Macon, K., additional, Mitchell, J. P., additional, Linhardt, L., additional, Kuchera, A., additional, Koshchiy, E., additional, Kemper, K., additional, Santiago-Gonzales, D., additional, Volya, A., additional, and Wiedenhoever, I., additional

Published

2013

39. Measurement of [sup 17]F+p reactions at RESOLUT

Author

Linhardt, L. E., primary, Baby, L., additional, Bardayan, D. W., additional, Blackmon, J. C., additional, Gardiner, H., additional, Johnson, E., additional, Koschiy, E., additional, Macon, K. T., additional, Rasco, B. C., additional, Rogachev, G., additional, Santiago-Gonzalez, D., additional, and Wiedenhoever, I., additional

Published

2012

40. A study of pixilated CdZnTe detectors for neutrino research

Author

Miyamoto, J, primary, Kutter, T, additional, Leder, A, additional, and Macon, K, additional

Published

2010

41. The Crystal Structure of C2b, a Fragment of Complement Component C2 produced during C3-convertase Formation

Author

Krishnan, V., primary, Xu, Y., additional, Macon, K., additional, Volanakis, J.E., additional, and Narayana, S.V., additional

Published

2009

42. Structure of light nuclei in resonance scattering experiments.

Author

Rogachev, G. V., Avila, M., Baby, L. T., Blackmon, J., Goldberg, V. Z., Johnson, E. D., Matos, M., Macon, K., Mitchell, J. P., Linhardt, L., Kuchera, A., Koshchiy, E., Kemper, K., Santiago-Gonzales, D., Volya, A., and Wiedenhoever, I.

Subjects

SCATTERING (Physics), NUCLEAR physics, RESONANCE, ELASTIC scattering, PARTICLES (Nuclear physics)

Abstract

Resonance scattering with rare isotope beams provides direct access to continuum properties of exotic nuclei and can serve as a stringent test for modern theoretical approaches. Properties of neutron deficient isotope 8B, that were studied using resonance scattering of protons of 7Be, are discussed and compared to the predictions of the ab initio theories. New experimental data on clustering in 10Be studied using 6He+α resonance elastic scattering is presented. [ABSTRACT FROM AUTHOR]

Published

2013

43. Measurement of 17F+p reactions at RESOLUT.

Author

Linhardt, L. E., Baby, L., Bardayan, D. W., Blackmon, J. C., Gardiner, H., Johnson, E., Koschiy, E., Macon, K. T., Rasco, B. C., Rogachev, G., Santiago-Gonzalez, D., and Wiedenhoever, I.

Subjects

X-ray bursts, NUCLEAR reactions, KINEMATICS, ELASTIC scattering, NUCLEAR astrophysics

Abstract

The 14O(α,p)17F reaction is important for understanding the αp process that occurs in X-ray bursts, but the rate of this reaction remains uncertain due to the uncertain properties of states in 18Ne. We measured the 17F(p,p)17F and 17F(p,α)14O reactions to study the properties of states in 18Ne that are important for the 14O(α,p)17F reaction using 17F radioactive beams from the RESOLUT facility at Florida State University. Double-sided silicon strip detectors were used to detect light particles, and recoiling heavy ions were detected in coincidence using a gas ionization chamber at forward angles. The performance of the system was first tested using the 17O(p,α)14N reaction. This was the first measurement using the ASIC electronics and recoil detector being developed for the Array for Nuclear Astrophysics Studies with Exotic Nuclei (ANASEN). We report on the performance and preliminary results. [ABSTRACT FROM AUTHOR]

Published

2012

44. A study of pixilated CdZnTe detectors for neutrino research.

Author

Miyamoto, J., Kutter, T., Leder, A., and Macon, K.

Published

2010

45. Recombinant and native zymogen forms of human complement factor D.

Author

Yamauchi, Y, primary, Stevens, J W, additional, Macon, K J, additional, and Volanakis, J E, additional

Published

1994

46. cDNA cloning and characterization of the protein encoded by RD, a gene located in the class III region of the human major histocompatibility complex

Author

Cheng, J, primary, Macon, K J, additional, and Volanakis, J E, additional

Published

1993

47. Structure of the human C2 gene.

Author

Ishii, Y, primary, Zhu, Z B, additional, Macon, K J, additional, and Volanakis, J E, additional

Published

1993

48. Major histocompatibility complex class III genes and susceptibility to immunoglobulin A deficiency and common variable immunodeficiency.

Author

Volanakis, J E, primary, Zhu, Z B, additional, Schaffer, F M, additional, Macon, K J, additional, Palermos, J, additional, Barger, B O, additional, Go, R, additional, Campbell, R D, additional, Schroeder, H W, additional, and Cooper, M D, additional

Published

1992

49. Site-directed mutagenesis of the region around Cys-241 of complement component C2. Evidence for a C4b binding site.

Author

Horiuchi, T, primary, Macon, K J, additional, Engler, J A, additional, and Volanakis, J E, additional

Published

1991

50. Translational regulation of complement protein C2 expression by differential utilization of the 5'-untranslated region of mRNA.

Author

Horiuchi, T, primary, Macon, K J, additional, Kidd, V J, additional, and Volanakis, J E, additional

Published

1990