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33 results on '"Sargsyan, G. H."'

1. Ab initio informed 20Ne(p, p$\alpha$)16O reaction elucidates the emergence of alpha clustering from chiral potentials

Author

Sargsyan, G. H., Yoshida, Kazuki, Ogata, Kazuyuki, Launey, K. D., Escher, J. E., Langr, D., and Dytrych, T.

Subjects
Nuclear Theory
Abstract

We report on the first \textit{ab initio} informed $\alpha$ knock-out reaction in the intermediate-mass region, with the aim to probe the underlying chiral potential and its impact on the emergence of alpha clustering in this mass region. The theoretical predictions of the $\alpha+^{16}$O clustering in the $^{20}$Ne ground state, based on the \textit{ab initio} symmetry-adapted no-core shell model with continuum, yield a triple differential cross section for $^{20}$Ne(p, p$\alpha$)$^{16}$O that is in a remarkable agreement with the data. This allows us to examine predictions of surface and in-medium $\alpha$-cluster features from a chiral potential and to compare these to the successful antisymmetrized molecular dynamics approach., Comment: 7 pages, 3 figures

Published
2024

2. Microscopic optical potentials from a Greens function approach

Author

Sargsyan, G. H., Potel, G., Kravvaris, K., and Escher, J. E.

Subjects
Nuclear Theory
Abstract

Optical potentials are a standard tool in the study of nuclear reactions, as they describe the effective interaction between a target nucleus and a projectile. The use of phenomenological optical potentials built using experimental data on stable isotopes is widespread. Although successful in their dedicated domain, it is unclear whether these phenomenological potentials can provide reliable predictions for unstable isotopes. To address this problem, optical potentials based on microscopic nuclear structure input calculations prove to be crucial, and are an important current line of research. In this work, we present a new approach for the systematic derivation of optical potentials using input from nuclear structure models. We provide an application addressing the n+24Mg elastic scattering reaction based on the valence shell model., Comment: 11 pages, 9 figures

Published
2024

3. Ab initio translationally invariant nucleon-nucleus optical potentials

Author

Burrows, M., Launey, K. D., Mercenne, A., Baker, R. B., Sargsyan, G. H., Dytrych, T., and Langr, D.

Subjects
Nuclear Theory
Abstract

We combine the \textit{ab initio} symmetry-adapted no-core shell model (SA-NCSM) with the single-particle Green's function approach to construct optical potentials rooted in first principles. Specifically, we show that total cross sections and phase shifts for neutron elastic scattering from a $^4$He target with projectile energies between 0.5 and 10 MeV closely reproduce the experiment. In addition, we discuss an important new development that resolves a long-standing issue with spurious center-of-mass motion in the Green's function formalism for many-body approaches. The new development opens the path for first-principle predictions of cross sections for elastic scattering of single-nucleon projectiles, nucleon capture and deuteron breakup reactions, feasible for a broad range of open-shell spherical and deformed nuclei in the SA-NCSM approach., Comment: 19 pages, 11 figures, to be submitted to Physical Review C

Published
2023
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4. Fundamental Symmetries, Neutrons, and Neutrinos (FSNN): Whitepaper for the 2023 NSAC Long Range Plan

Author

Acharya, B., Adams, C., Aleksandrova, A. A., Alfonso, K., An, P., Baeßler, S., Balantekin, A. B., Barbeau, P. S., Bellini, F., Bellini, V., Beminiwattha, R. S., Bernauer, J. C., Bhattacharya, T., Bishof, M., Bolotnikov, A. E., Breur, P. A., Brodeur, M., Brodsky, J. P., Broussard, L. J., Brunner, T., Burdette, D. P., Caylor, J., Chiu, M., Cirigliano, V., Clark, J. A., Clayton, S. M., Daniels, T. V., Darroch, L., Davoudi, Z., de Gouvêa, A., Dekens, W., Demarteau, M., DeMille, D., Deshpande, A., Detwiler, J. A., Dodson, G. W., Dolinski, M. J., Elliott, S. R., Engel, J., Erler, J., Filippone, B. W., Fomin, N., Formaggio, J. A., Friesen, F. Q. L., Fry, J., Fujikawa, B. K., Fuller, G., Fuyuto, K., Gallant, A. T., Gallina, G., Ruiz, A. Garcia, Ruiz, R. F. Garcia, Gardner, S., Gonzalez, F. M., Gratta, G., Gruszko, J., Gudkov, V., Guiseppe, V. E., Gutierrez, T. D., Hansen, E. V., Hardy, C. A., Haxton, W. C., Hayen, L., Hedges, S., Heeger, K. M., Heffner, M., Heise, J., Henning, R., Hergert, H., Hertzog, D. W., Aguilar, D. Hervas, Holt, J. D., Hoogerheide, S. F., Hoppe, E. W., Horoi, M., Howell, C. R., Huang, M., Hutzler, N. R., Imam, K., Ito, T. M., Jamil, A., Janssens, R. V., Jayich, A. M., Jones, B. J. P., Kammel, P., Liu, K. F., Khachatryan, V., King, P. M., Klein, J. R., Kneller, J. P., Kolomensky, Yu. G., Korsch, W., Krücken, R., Kumar, K. S., Launey, K. D., Lawrence, D., Leach, K. G., Lehnert, B., Lenardo, B. G., Li, Z., Lin, H. -W., Longfellow, B., Lopez-Caceres, S., Lunardini, C., MacLellan, R., Markoff, D. M., Maruyama, R. H., Mathews, D. G., Melconian, D., Mereghetti, E., Mohanmurthy, P., Moore, D. C., Mueller, P. E., Mumm, H. P., Nazarewicz, W., Newby, J., Nicholson, A. N., Novitski, E., Ondze, J. C. Nzobadila, O'Donnell, T., Gann, G. D. Orebi, Orrell, J. L., Ouellet, J. L., Parno, D. S., Paschke, K. D., Pastore, S., Pattie Jr, R. W., Petrov, A. A., Pitt, M. L., Plaster, B., Pocanic, D., Pocar, A., Poon, A. W. P., Radford, D. C., Rahangdale, H., Rasco, B. C., Rasiwala, H., Redwine, R. P., Ritz, A., Rogers, L., Ron, G., Saldanha, R., Sangiorgio, S., Sargsyan, G. H., Saunders, A., Savard, G., Schaper, D. C., Scholberg, K., Scielzo, N. D., Seng, C. -Y., Shindler, A., Singh, J. T., Singh, M., Singh, V., Snow, W. M., Soma, A. K., Souder, P. A., Speller, D. H., Stachurska, J., Surukuchi, P. T., Oregui, B. Tapia, Tomalak, O., Torres, J. A., Tyuka, O. A., VanDevender, B. A., Varriano, L., Vogt, R., Walker-Loud, A., Wamba, K., Watkins, S. L., Wietfeldt, F. E., Williams, W. D., Wilson, J. T., Winslow, L., Yan, X. L., Yang, L., Young, A. R., Zheng, X., and Zhou, Y.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

This whitepaper presents the research priorities decided on by attendees of the 2022 Town Meeting for Fundamental Symmetries, Neutrons and Neutrinos, which took place December 13-15, 2022 in Chapel Hill, NC, as part of the Nuclear Science Advisory Committee (NSAC) 2023 Long Range Planning process. A total of 275 scientists registered for the meeting. The whitepaper makes a number of explicit recommendations and justifies them in detail.

Published
2023

5. Nuclear $\beta$ decay as a probe for physics beyond the Standard Model

Author

Brodeur, M., Buzinsky, N., Caprio, M. A., Cirigliano, V., Clark, J. A., Fasano, P. J., Formaggio, J. A., Gallant, A. T., Garcia, A., Gandolfi, S., Gardner, S., Glick-Magid, A., Hayen, L., Hergert, H., Holt, J. D., Horoi, M., Huang, M. Y., Launey, K. D., Leach, K. G., Longfellow, B., Lovato, A., McCoy, A. E., Melconian, D., Mohanmurthy, P., Moore, D. C., Mueller, P., Mereghetti, E., Mittig, W., Navratil, P., Pastore, S., Piarulli, M., Puentes, D., Rasco, B. C., Redshaw, M., Sargsyan, G. H., Savard, G., Scielzo, N. D., Seng, C. -Y., Shindler, A., Stroberg, S. R., Surbrook, J., Walker-Loud, A., Wiringa, R. B., Wrede, C., Young, A. R., and Zelevinsky, V.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

This white paper was submitted to the 2022 Fundamental Symmetries, Neutrons, and Neutrinos (FSNN) Town Hall Meeting in preparation for the next NSAC Long Range Plan. We advocate to support current and future theoretical and experimental searches for physics beyond the Standard Model using nuclear $\beta$ decay., Comment: 12 pages, 2 figures, White paper submitted to the 2022 Fundamental Symmetries, Neutrons, and Neutrinos (FSNN) Town Hall Meeting at the University of North Carolina Chapel Hill

Published
2023

6. Ab initio single-neutron spectroscopic overlaps in lithium isotopes

Author

Sargsyan, G. H., Launey, K. D., Shaffer, R. M., Marley, S. T., Dudeck, N., Mercenne, A., Dytrych, T., and Draayer, J. P.

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We calculate single-neutron spectroscopic overlaps for lithium isotopes in the framework of the \textit{ab initio} symmetry-adapted no-core shell model. We report the associated neutron-nucleus asymptotic normalization coefficients (ANCs) and spectroscopic factors (SFs) that are important ingredients in many reaction cross section calculations. While spectroscopic factors have been traditionally extracted from experimental cross sections, their sensitivity on the type of reactions, energy, and the underlying models point to the need for determining SF from first-principle structure considerations. As illustrative examples, we present $^6$Li+n, $^7$Li+n, and $^8$Li+n, and we show that the results are in a good agreement with those of other \textit{ab initio} methods, where available, including the quantum Monte Carlo approach. We compare ANCs and SFs to available experimentally deduced values, with a view toward expanding this study to heavier nuclei and to extracting inter-cluster effective interactions for input into analyses of existing and future experimental data., Comment: 10 pages, 8 figures

Published
2022
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7. Optical potentials for the rare-isotope beam era

Author

Hebborn, C., Nunes, F. M., Potel, G., Dickhoff, W. H., Holt, J. W., Atkinson, M. C., Baker, R. B., Barbieri, C., Blanchon, G., Burrows, M., Capote, R., Danielewicz, P., Dupuis, M., Elster, Ch., Escher, J. E., Hlophe, L., Idini, A., Jayatissa, H., Kay, B. P., Kravvaris, K., Manfredi, J. J., Mercenne, A., Morillon, B., Perdikakis, G., Pruitt, C. D., Sargsyan, G. H., Thompson, I. J., Vorabbi, M., and Whitehead, T. R.

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We review recent progress and motivate the need for further developments in nuclear optical potentials that are widely used in the theoretical analysis of nucleon elastic scattering and reaction cross sections. In regions of the nuclear chart away from stability, which represent a frontier in nuclear science over the coming decade and which will be probed at new rare-isotope beam facilities worldwide, there is a targeted need to quantify and reduce theoretical reaction model uncertainties, especially with respect to nuclear optical potentials. We first describe the primary physics motivations for an improved description of nuclear reactions involving short-lived isotopes, focusing on its benefits for fundamental science discoveries and applications to medicine, energy, and security. We then outline the various methods in use today to build optical potentials starting from phenomenological, microscopic, and ab initio methods, highlighting in particular the strengths and weaknesses of each approach. We then discuss publicly-available tools and resources facilitating the propagation of recent progresses in the field to practitioners. Finally, we provide a set of open challenges and recommendations for the field to advance the fundamental science goals of nuclear reaction studies in the rare-isotope beam era., Comment: This paper is the outcome of the Facility for Rare Isotope Beams Theory Alliance (FRIB - TA) topical program "Optical Potentials in Nuclear Physics" held in March 2022 at FRIB. Its content is non-exhaustive, was chosen by the participants and reflects their efforts related to optical potentials

Published
2022
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8. Improved Limit on Tensor Currents in the Weak Interaction from $^8$Li $\beta$ Decay

Author

Burkey, M. T., Savard, G., Gallant, A. T., Scielzo, N. D., Hirsh, T. Y., Varriano, L., Sargsyan, G. H., Launey, K. D., Brodeur, M., Burdette, D. P., Heckmaier, E., Joerres, K., Klimes, J. W., Kolos, K., Laminack, A., Leach, K. G., Levand, A. F., Longfellow, B., Maaß, B., Marley, S. T., Morgan, G. E., Mueller, P., Orford, R., Padgett, S. W., Galván, A. Pérez, Pierce, J. R., Ray, D., Segel, R., Siegl, K., Sharma, K. S., and Wang, B. S.

Subjects
Nuclear Experiment, High Energy Physics - Phenomenology, Nuclear Theory
Abstract

The electroweak interaction in the Standard Model (SM) is described by a pure vector-axial-vector structure, though any Lorentz-invariant component could contribute. In this work, we present the most precise measurement of tensor currents in the low-energy regime by examining the $\beta$-$\bar{\nu}$ correlation of trapped $^{8}$Li ions with the Beta-decay Paul Trap. We find $a_{\beta\nu} = -0.3325 \pm 0.0013_{stat} \pm 0.0019_{syst}$ at $1\sigma$ for the case of coupling to right-handed neutrinos $(C_T=-C_T')$, which is consistent with the SM prediction., Comment: 6 pages, 3 figures, 1 table

Published
2022
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9. Impact of clustering on the $^8$Li $\beta$ decay and recoil form factors

Author

Sargsyan, G. H., Launey, K. D., Burkey, M. T., Gallant, A. T., Scielzo, N. D., Savard, G., Mercenne, A., Dytrych, T., Langr, D., Varriano, L., Longfellow, B., Hirsh, T. Y., and Draayer, J. P.

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

We place unprecedented constraints on recoil corrections in the $\beta$ decay of $^8$Li, by identifying a strong correlation between them and the $^8$Li ground state quadrupole moment in large-scale ab initio calculations. The results are essential for improving the sensitivity of high-precision experiments that probe the weak interaction theory and test physics beyond the Standard Model (BSM). In addition, our calculations predict a $2^+$ state of the $\alpha+\alpha$ system that is energetically accessible to $\beta$ decay but has not been observed in the experimental $^8$Be energy spectrum, and has an important effect on the recoil corrections and $\beta$ decay for the $A=8$ systems. This state and an associated $0^+$ state are notoriously difficult to model due to their cluster structure and collective correlations, but become feasible for calculations in the ab initio symmetry-adapted no-core shell-model framework., Comment: Accepted version

Published
2021
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10. Machine learning approach to pattern recognition in nuclear dynamics from the ab initio symmetry-adapted no-core shell model

Author

Molchanov, O. M., Launey, K. D., Mercenne, A., Sargsyan, G. H., Dytrych, T., and Draayer, J. P.

Subjects
Nuclear Theory
Abstract

A novel machine learning approach is used to provide further insight into atomic nuclei and to detect orderly patterns amidst a vast data of large-scale calculations. The method utilizes a neural network that is trained on ab initio results from the symmetry-adapted no-core shell model (SA-NCSM) for light nuclei. We show that the SA-NCSM, which expands ab initio applications up to medium-mass nuclei by using dominant symmetries of nuclear dynamics, can reach heavier nuclei when coupled with the machine learning approach. In particular, we find that a neural network trained on probability amplitudes for $s$-and $p$-shell nuclear wave functions not only predicts dominant configurations for heavier nuclei but in addition, when tested for the $^{20}$Ne ground state, it accurately reproduces the probability distribution. The nonnegligible configurations predicted by the network provide an important input to the SA-NCSM for reducing ultra-large model spaces to manageable sizes that can be, in turn, utilized in SA-NCSM calculations to obtain accurate observables. The neural network is capable of describing nuclear deformation and is used to track the shape evolution along the $^{20-42}$Mg isotopic chain, suggesting a shape-coexistence that is more pronounced toward the very neutron-rich isotopes. We provide first descriptions of the structure and deformation of $^{24}$Si and $^{40}$Mg of interest to x-ray burst nucleosynthesis, and even of the extremely heavy nuclei such as $^{166,168}$Er and $^{236}$U, that build upon first principles considerations., Comment: 10 pages, 9 figures

Published
2021
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11. SU(3)-guided Realistic Nucleon-nucleon Interactions for Large-scale Calculations

Author

Sargsyan, G. H., Launey, K. D., Baker, R. B., Dytrych, T., and Draayer, J. P.

Subjects
Nuclear Theory
Abstract

We examine nucleon-nucleon realistic interactions, based on their SU(3) decomposition to SU(3)-symmetric components. We find that many of these interaction components are negligible, which, in turn, allows us to identify a subset of physically relevant components that are sufficient to describe the structure of low-lying states in $^{12}$C and related observables, such as excitation energies, electric quadrupole transitions and rms radii. We find that paring the interaction down to half of the SU(3)-symmetric components or more yields results that practically coincide with the corresponding ab initio calculations with the full interaction. In addition, we show that while various realistic interactions differ in their SU(3) decomposition, their renormalized effective counterparts exhibit a striking similarity and composition that can be linked to dominant nuclear features such as deformation, pairing, clustering, and spin-orbit effect., Comment: 9 pages, 7 figures

Published
2020
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12. Alpha clustering and alpha-capture reaction rate from ab initio symmetry-adapted description of $^{20}$Ne

Author

Dreyfuss, A. C., Launey, K. D., Escher, J. E., Sargsyan, G. H., Baker, R. B., Dytrych, T., and Draayer, J. P.

Subjects
Nuclear Theory, Astrophysics - Solar and Stellar Astrophysics
Abstract

We introduce a new framework for studying clustering and for calculating alpha partial widths using ab initio wave functions. We demonstrate the formalism for $^{20}$Ne, by calculating the overlap between the $^{16}$O$+\alpha$ cluster configuration and states in $^{20}$Ne computed in the ab initio symmetry-adapted no-core shell model. We present spectroscopic amplitudes and spectroscopic factors, and compare those to no-core symplectic shell-model results in larger model spaces, to gain insight into the underlying physics that drives alpha-clustering. Specifically, we report on the alpha partial width of the lowest $1^-$ resonance in $^{20}$Ne, which is found to be in good agreement with experiment. We also present first no-core shell-model estimates for asymptotic normalization coefficients for the ground state, as well as for the first excited $4^{+}$ state in $^{20}$Ne that lies in a close proximity to the $^{16}$O$+\alpha$ threshold. This outcome highlights the importance of correlations for developing cluster structures and for describing alpha widths. The widths can then be used to calculate alpha-capture reaction rates for narrow resonances of interest to astrophysics. We explore the reaction rate for the alpha-capture reaction $^{16}$O$(\alpha,\gamma)^{20}$Ne at astrophysically relevant temperatures and determine its impact on simulated X-ray burst abundances., Comment: 16 pages, 7 figures

Published
2020
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13. Isospin symmetry in $B(E2)$ values: Coulomb excitation study of ${}^{21}$Mg

Author

Ruotsalainen, P., Henderson, J., Hackman, G., Sargsyan, G. H., Launey, K. D., Saxena, A., Srivastava, P. C., Stroberg, S. R., Grahn, T., Pakarinen, J., Ball, G. C., Julin, R., Greenlees, P. T., Smallcombe, J., Andreoiu, C., Bernier, N., Bowry, M., Buckner, M., Caballero-Folch, R., Chester, A., Cruz, S., Evitts, L. J., Frederick, R., Garnsworthy, A. B., Holl, M., Kurkjian, A., Kisliuk, D., Leach, K. G., McGee, E., Measures, J., Mücher, D., Park, J., Sarazin, F., Smith, J. K., Southall, D., Starosta, K., Svensson, C. E., Whitmore, K., Williams, M., and Wu, C. Y.

Subjects
Nuclear Experiment
Abstract

The $T_z$~=~$-\frac{3}{2}$ nucleus ${}^{21}$Mg has been studied by Coulomb excitation on ${}^{196}$Pt and ${}^{110}$Pd targets. A 205.6(1)-keV $\gamma$-ray transition resulting from the Coulomb excitation of the $\frac{5}{2}^+$ ground state to the first excited $\frac{1}{2}^+$ state in ${}^{21}$Mg was observed for the first time. Coulomb excitation cross-section measurements with both targets and a measurement of the half-life of the $\frac{1}{2}^+$ state yield an adopted value of $B(E2;\frac{5}{2}^+\rightarrow\frac{1}{2}^+)$~=~13.3(4)~W.u. A new excited state at 1672(1)~keV with tentative $\frac{9}{2}^+$ assignment was also identified in ${}^{21}$Mg. This work demonstrates large difference of the $B(E2;\frac{5}{2}^+\rightarrow\frac{1}{2}^+)$ values between $T$~=~$\frac{3}{2}$, $A$~=~21 mirror nuclei. The difference is investigated in the shell-model framework employing both isospin conserving and breaking USD interactions and using modern \textsl{ab initio} nuclear structure calculations, which have recently become applicable in the $sd$ shell., Comment: 8 pages, 6 figures, submitted to Phys. Rev. C, Rapid Communication

Published
2018
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17. Optical potentials for the rare-isotope beam era

Author

Hebborn, C, primary, Nunes, F M, additional, Potel, G, additional, Dickhoff, W H, additional, Holt, J W, additional, Atkinson, M C, additional, Baker, R B, additional, Barbieri, C, additional, Blanchon, G, additional, Burrows, M, additional, Capote, R, additional, Danielewicz, P, additional, Dupuis, M, additional, Elster, Ch, additional, Escher, J E, additional, Hlophe, L, additional, Idini, A, additional, Jayatissa, H, additional, Kay, B P, additional, Kravvaris, K, additional, Manfredi, J J, additional, Mercenne, A, additional, Morillon, B, additional, Perdikakis, G, additional, Pruitt, C D, additional, Sargsyan, G H, additional, Thompson, I J, additional, Vorabbi, M, additional, and Whitehead, T R, additional

Published
2023
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18. Impact of Clustering on the Li8 β Decay and Recoil Form Factors

Author

Sargsyan, G. H., primary, Launey, K. D., additional, Burkey, M. T., additional, Gallant, A. T., additional, Scielzo, N. D., additional, Savard, G., additional, Mercenne, A., additional, Dytrych, T., additional, Langr, D., additional, Varriano, L., additional, Longfellow, B., additional, Hirsh, T. Y., additional, and Draayer, J. P., additional

Published
2022
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19. Improved Limit on Tensor Currents in the Weak Interaction from Li8 β Decay

Author

Burkey, M. T., primary, Savard, G., additional, Gallant, A. T., additional, Scielzo, N. D., additional, Clark, J. A., additional, Hirsh, T. Y., additional, Varriano, L., additional, Sargsyan, G. H., additional, Launey, K. D., additional, Brodeur, M., additional, Burdette, D. P., additional, Heckmaier, E., additional, Joerres, K., additional, Klimes, J. W., additional, Kolos, K., additional, Laminack, A., additional, Leach, K. G., additional, Levand, A. F., additional, Longfellow, B., additional, Maaß, B., additional, Marley, S. T., additional, Morgan, G. E., additional, Mueller, P., additional, Orford, R., additional, Padgett, S. W., additional, Pérez Galván, A., additional, Pierce, J. R., additional, Ray, D., additional, Segel, R., additional, Siegl, K., additional, Sharma, K. S., additional, and Wang, B. S., additional

Published
2022
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23. Shape Mixing and Clustering in Nuclei: Probing Physics beyond the Standard Model.

Author

Sargsyan, G. H., Launey, K. D., Mercenne, A., Dytrych, T., and Draayer, J. P.

Subjects
*STANDARD model (Nuclear physics), *NUCLEAR physics, *BETA decay, *NEUTRINOLESS double beta decay, *PHYSICS
Abstract

The ab initio methods in nuclear physics play a major role due to their use of realistic internucleon interactions that grant them predictive capabilities. One of these models -- the symmetry-adapted nocore shell model (SA-NCSM) -- is capable of reaching the medium-mass region of the chart of the nuclides, by exploiting the emergent symmetries of nuclei, and is therefore well-suited for studying collective correlations and beta decay modes. We apply the SA-NCSM to calculate beta-decay observables essential to probe physics beyond the Standard Model. Our calculations of higher-order recoil terms in the beta decay of 8Li help to significantly reduce the uncertainties in high-precision experiments that study the vector minus axial vector (V-A) structure of the weak interaction. Furthermore, we calculate neutrinoless double beta decay matrix elements important for determining whether the neutrino is its own antiparticle. [ABSTRACT FROM AUTHOR]

Published
2022
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24. The Dominance of Deformation in Nuclei and Its Roots in a Symplectic Effective Field Theory.

Author

Draayer, J. P., Kekejian, D., Sargsyan, G. H., Dytrych, T., and Launey, K. D.

Subjects
NUCLEAR physics, NUCLEON-nucleon scattering, LANDSCAPE changes, NUCLEAR structure, SOCIAL dominance, PARTICLES (Nuclear physics), NUCLEON-nucleon interactions
Abstract

position in time our recent efforts to advance a forwardleaning many-particle shell-model theory for nuclear structure studies, we start with a review of major developments in nuclear physics over the last (20th) century, focusing especially on the last half as the mathematical framework that underpins our efforts was by-and-large developed by master subatomic theorists from the 50s through the 80s. Additionally, the landscape changed dramatically with the advent in the 90s of highperformance computing (HPC) facilities that could be used to test more complex theories that in prior times were deemed to be beyond reach. The first of these modern theories, the so-called no-core shell model (NCSM), taught us that one can carryout nuclear structure calculations using realistic interactions deduced from nucleon scattering data. Subsequently we set out to explore whether this could be extended to algebraic models that involve non-compact group structures. A stretch goal of the latter campaign was to move away from a point-particlepicture of nuclei to a theory that is driven by the structure of the constituent nucleons themselves. What follows describes our efforts to date in moving towards this goal, and in the last section of this manuscript we proffered a novel symplectic effective field theory that may begin to pave the way for achieving this objective of breaking down barriers between a low-energy and high-energy view of nuclear physics, opening the door to what might best be called a truly unified 'ab initio' theory for subatomic nuclear structure studies [ABSTRACT FROM AUTHOR]

Published
2022
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25. Structure of Mg28 and influence of the neutron pf shell

Author

Williams, J., primary, Ball, G. C., additional, Chester, A., additional, Domingo, T., additional, Garnsworthy, A. B., additional, Hackman, G., additional, Henderson, J., additional, Henderson, R., additional, Krücken, R., additional, Kumar, Anil, additional, Launey, K. D., additional, Measures, J., additional, Paetkau, O., additional, Park, J., additional, Sargsyan, G. H., additional, Smallcombe, J., additional, Srivastava, P. C., additional, Starosta, K., additional, Svensson, C. E., additional, Whitmore, K., additional, and Williams, M., additional

Published
2019
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26. Isospin symmetry in B(E2) values: Coulomb excitation study of Mg21

Author

Ruotsalainen, P., primary, Henderson, J., additional, Hackman, G., additional, Sargsyan, G. H., additional, Launey, K. D., additional, Saxena, A., additional, Srivastava, P. C., additional, Stroberg, S. R., additional, Grahn, T., additional, Pakarinen, J., additional, Ball, G. C., additional, Julin, R., additional, Greenlees, P. T., additional, Smallcombe, J., additional, Andreoiu, C., additional, Bernier, N., additional, Bowry, M., additional, Buckner, M., additional, Caballero-Folch, R., additional, Chester, A., additional, Cruz, S., additional, Evitts, L. J., additional, Frederick, R., additional, Garnsworthy, A. B., additional, Holl, M., additional, Kurkjian, A., additional, Kisliuk, D., additional, Leach, K. G., additional, McGee, E., additional, Measures, J., additional, Mücher, D., additional, Park, J., additional, Sarazin, F., additional, Smith, J. K., additional, Southall, D., additional, Starosta, K., additional, Svensson, C. E., additional, Whitmore, K., additional, Williams, M., additional, and Wu, C. Y., additional

Published
2019
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28. Ab initio Picture of Nuclei: Shapes, Rotations, and Vibrations from Chiral Potentials.

Author

Launey, K. D., Dreyfuss, A. C., Sargsyan, G. H., Baker, R. B., Miora, M., Draayer, J. P., and Dytrych, T.

Subjects
ATOMIC nucleus, MOLECULAR rotation, CHIRALITY
Abstract

The ab initio symmetry-adapted no-core shell model is a firstprinciple framework, which can now expand the reach of the ab initio theory, by exploiting approximate symmetries found to dominate in atomic nuclei, namely, the deformation related SU(3) and its embedding symplectic Sp(3,R) symmetry. This allows one to achieve nuclear descriptions, including the emergence of collective modes and α-capture reactions, starting from the properties of two or three nucleons often tied to the symmetry patterns of quark and gluon dynamics. Furthermore, one can utilize the symplectic Sp(3,R) symmetry to identify equilibrium deformation, rotational bands and giant-resonance modes. [ABSTRACT FROM AUTHOR]

Published
2017

29. Cisplatin-induced cumulative ototoxicity based on preexposure hearing status.

Author

Sargsyan, G. H., Bakhshinyan, V. V., Vardanyan, A. G., Nazanyan, A., Hovhannesyan, N. S., Badalyan, L. G., and Shukuryan, A. K.

Subjects
*HEARING, *CONFERENCES & conventions, *RISK assessment, *CISPLATIN, *OTOTOXICITY, *HEARING disorders, *DOSE-effect relationship in pharmacology, *TUMORS, *DISEASE risk factors
Abstract

Objective: Platinum-based chemotherapeutic drugs are considered the main treatment for various malignant tumors. The first generation platinum-based chemotherapeutic drug such as cisplatin is widely used among both adults and children often as a drug of choice. However, it is one of the most ototoxic drugs. The purpose of the study is to find out the cisplatin-induced cumulative ototoxicity based on pre-exposure hearing status. Material and methods: First time in Armenia, at Nairi MC, Armenia starting from October 2018, program for monitoring of ototoxicity is implemented for patients receiving chemotherapy. This is taking place in and being funded by Science Committee of Ministry of Education and Science of Armenia. The study included 20 adult patients who were exposed to Cisplatin 3--5 times; the range cumulative dose was 100-650mg. As a study sample each ear was examined individually. One of the patients one ear wasn't included in the study since the patient had initial unilateral hearing loss. As a result 39 ears were examined. The samples were divided into two groups. The first group included the ears (n=25) which hearing status didn't change after the treatment based on the results of the pure-tone audiometry (125--12 kH), while the second group included the ears (n=14) which hearing status altered by at least 15-dB based on the results of the pure-tone audiometry. 20 samples from the first group suffered from mild to moderate, moderate or moderate to profound hearing loss, the rest samples had normal pre-exposure hearing status. 10 samples from the second group had normal pre-exposure hearing status or mild haring loss, the other 4 samples suffered from mild to moderate hearing loss. Results: The ototoxicity of cumulative doses of 350 mg and lower was insignificant compared with pre-exposure hearing status. Hearing loss was found among 3 samples; 2 of them had normal pre-exposure hearing status, 1 of them suffered from pre-exposure hearing loss. The ototoxicity of cumulative doses starting from 400--550 mg was significantly associated with pre-exposure hearing status. Hearing loss was found among 7 samples; only 2 of them suffered from pre-exposure moderate hearing loss, the other 5 had normal pre-exposure hearing status or mild haring loss. 4 samples were exposed to cumulative doses of 600-650 mg. Hearing loss was found among all of them, but 3 of them had normal pre-exposure hearing status, 1 of them suffered from pre-exposure mild to moderate hearing loss. Conclusions: The prediction of the ototoxicity of cumulative doses of 350 mg and lower is insignificantly associated with pre-exposure hearing status. Starting from 400 mg there was a considerable association with pre-exposure hearing status. Parallel to the dose increase, the ototoxicity on ears with normal pre-exposure hearing status is more predictable. [ABSTRACT FROM AUTHOR]

Published
2022

30. Nuclear $\beta$ decay as a probe for physics beyond the Standard Model

Author

Brodeur, M., Buzinsky, N., Caprio, M. A., Cirigliano, V., Clark, J. A., Fasano, P. J., Formaggio, J. A., Gallant, A. T., Garcia, A., Gandolfi, S., Gardner, S., Glick-Magid, A., Hayen, L., Hergert, H., Holt, J. D., Horoi, M., Huang, M. Y., Launey, K. D., Leach, K. G., Longfellow, B., Lovato, A., Mccoy, A. E., Melconian, D., Prajwal Mohanmurthy, Moore, D. C., Mueller, P., Mereghetti, E., Mittig, W., Navratil, P., Pastore, S., Piarulli, M., Puentes, D., Rasco, B. C., Redshaw, M., Sargsyan, G. H., Savard, G., Scielzo, N. D., Seng, C. -Y, Shindler, A., Stroberg, S. R., Surbrook, J., Walker-Loud, A., Wiringa, R. B., Wrede, C., Young, A. R., and Zelevinsky, V.

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

This white paper was submitted to the 2022 Fundamental Symmetries, Neutrons, and Neutrinos (FSNN) Town Hall Meeting in preparation for the next NSAC Long Range Plan. We advocate to support current and future theoretical and experimental searches for physics beyond the Standard Model using nuclear $\beta$ decay., Comment: 12 pages, 2 figures, White paper submitted to the 2022 Fundamental Symmetries, Neutrons, and Neutrinos (FSNN) Town Hall Meeting at the University of North Carolina Chapel Hill

31. Structure of 28Mg and influence of the neutron pf shell.

Author

Williams, J., Ball, G. C., Chester, A., Domingo, T., Garnsworthy, A. B., Hackman, G., Henderson, J., Henderson, R., Krücken, R., Kumar, Anil, Launey, K. D., Measures, J., Paetkau, O., Park, J., Sargsyan, G. H., Smallcombe, J., Srivastava, P. C., Starosta, K., Svensson, C. E., and Whitmore, K.

Subjects
*HEAVY ion fusion reactions, *DOPPLER effect, *NEUTRONS, *GAMMA rays, *GAMMA ray spectrometry
Abstract

Gamma-ray spectroscopy and lifetime measurements using the Doppler shift attenuation method (DSAM) were performed on the nucleus 28Mg near the N=20 "island of inversion," which was populated using a 12C(18O,2p)28Mg fusion-evaporation reaction to investigate the impact of shell evolution on its high-lying structure. Three new levels were identified at 7203(3), 7747(2), and 7929.3(12) keV along with several new gamma rays. A newly extracted B(E2;4+1→2+1) of 42(7) e²fm4 indicates reduced collectivity in the yrast band at high spin, consistent with ab initio symmetry adapted no-core shell model (SA-NCSM) calculations. At high excitation energy, evidence for the population of intruder orbitals was obtained through identification of negative parity levels [Iπ=(0,4)-, (4,5)-]. Calculations using the SDPF-MU interaction indicate that these levels arise from single neutron excitation to the pf shell and provides evidence for the lowering of these intruder orbitals approaching the island of inversion. [ABSTRACT FROM AUTHOR]

Published
2019
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32. Improved Tensor Current Limit from ^{8}B β Decay Including New Recoil-Order Calculations.

Author

Longfellow B, Gallant AT, Sargsyan GH, Burkey MT, Hirsh TY, Savard G, Scielzo ND, Varriano L, Brodeur M, Burdette DP, Clark JA, Lascar D, Launey KD, Mueller P, Ray D, Sharma KS, Valverde AA, Wilson GL, and Yan XL

Abstract

A precision measurement of the β^{+} decay of ^{8}B was performed using the Beta-decay Paul Trap to determine the β-ν angular correlation coefficient a_{βν}. The experimental results were combined with new ab initio symmetry-adapted no-core shell-model calculations to yield the second-most precise measurement from Gamow-Teller decays, a_{βν}=-0.3345±0.0019_{stat}±0.0021_{syst}. This value agrees with the standard model value of -1/3 and improves uncertainties in ^{8}B by nearly a factor of 2. By combining results from ^{8}B and ^{8}Li, a tight limit on tensor current coupling to right-handed neutrinos was obtained. A recent global evaluation of all other precision β decay studies suggested a nonzero value for right-handed neutrino coupling in contradiction with the standard model at just above 3σ. The present results are of comparable sensitivity and do not support this finding.

Published
2024
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33. Impact of Clustering on the ^{8}Li β Decay and Recoil Form Factors.

Author

Sargsyan GH, Launey KD, Burkey MT, Gallant AT, Scielzo ND, Savard G, Mercenne A, Dytrych T, Langr D, Varriano L, Longfellow B, Hirsh TY, and Draayer JP

Abstract

We place unprecedented constraints on recoil corrections in the β decay of ^{8}Li, by identifying a strong correlation between them and the ^{8}Li ground state quadrupole moment in large-scale ab initio calculations. The results are essential for improving the sensitivity of high-precision experiments that probe the weak interaction theory and test physics beyond the standard model. In addition, our calculations predict a 2^{+} state of the α+α system that is energetically accessible to β decay but has not been observed in the experimental ^{8}Be energy spectrum, and has an important effect on the recoil corrections and β decay for the A=8 systems. This state and an associated 0^{+} state are notoriously difficult to model due to their cluster structure and collective correlations, but become feasible for calculations in the ab initio symmetry-adapted no-core shell-model framework.

Published
2022
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