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1. Evolution of chirality from transverse wobbling in $^{135}$Pr

Author

Sensharma, N., Garg, U., Chen, Q. B., Frauendorf, S., Zhu, S., Arroyo, J., Ayangeakaa, A. D., Burdette, D. P., Carpenter, M. P., Copp, P., Cozzi, J. L., Ghugre, S. S., Hartley, D. J., Howard, K. B., Janssens, R. V. F., Kondev, F. G., Lauritsen, T., Li, J., Palit, R., Saracino, A., Seweryniak, D., Weyhmiller, S., and Wu, J.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

Chirality is a distinct signature that characterizes triaxial shapes in nuclei. We report the first observation of chirality in the nucleus $^{135}$Pr using a high-statistics Gammasphere experiment with the $^{123}$Sb($^{16}$O,4n)$^{135}$Pr reaction. Two chiral-partner bands with the configuration $\pi(1h_{11/2})^1\otimes \nu(1h_{11/2})^{-2}$ have been identified in this nucleus. Angular distribution analyses of the $\Delta I = 1$ connecting transitions between the two chiral partners have revealed a dominant dipole character. Quasiparticle triaxial rotor model calculations are in good agreement with the experiment. This is the first time that both signatures of triaxiality--chirality and wobbling--have been observed in the same nucleus., Comment: 11 pages, 11 figures

Published
2024

2. Determination of the spins and parities for the 0$_{4}^{+}$ and 0$_{5}^{+}$ states in $^{100}$Zr

Author

Wu, J., Carpenter, M. P., Kondev, F. G., Janssens, R. V. F., Zhu, S., McCutchan, E. A., Ayangeakaa, A. D., Chen, J., Clark, J., Hartley, D. J., Lauritsen, T., Pietralla, N., Savard, G., Seweryniak, D., and Werner, V.

Subjects
Nuclear Experiment
Abstract

Two 0$^{+}$ states at 1294.5 and 1774.0 keV, together with three 2$^{+}$ and one 4$^{+}$ levels, were identified or unambiguously spin-parity assigned for the first time in $^{100}$Zr utilizing $\gamma$-ray spectroscopy and $\gamma$-$\gamma$ angular correlation techniques with the Gammasphere spectrometer, following the $\beta^{-}$ decay of neutron-rich, mass separated $^{100,100m}$Y isotopes. Comparisons with recent Monte Carlo Shell-Model (MCSM) calculations indicate that these two states are candidates for the bandhead of a sequence in a shape-coexisting spherical minimum predicted to be located around $\approx$1500 keV. According to the measured relative B(E2)$_{relative}$ transition probabilities, the 0$_{5}^{+}$ state exhibits decay properties which more closely align with those predicted for a spherical shape, while the 0$_{4}^{+}$ level is suggested to be associated with a weakly-deformed shape similar to one related to the 0$_{2}^{+}$ state.

Published
2024
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4. Rabies in the Guiana Shield

Author

Picaut-Plat, A., Djossou, F., Epelboin, L., Hartley, D., Kpangon, A. A., Roman-Laverdure, B., Seetahal, J., de Thoisy, B., Vansauers, A., Lavergne, A., and Rupprecht, Charles E., editor

Published
2024
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5. Observation of $\gamma$-vibrations and alignments built on non-ground-state configurations in 156Dy

Author

Majola, S. N. T., Hartley, D. J., Riedinger, L. L., Sharpey-Schafer, J. F., Allmond, J. M., Beausang, C., Carpenter, M. P., Chiara, C. J., Cooper, N., Curien, D., Gall, B. J. P., Garrett, P. E., Janssens, R. V. F., Kondev, F. G., Kulp, W. D., Lauritsen, T., McCutchan, E. A., Miller, D., Piot, J., Redon, N., Riley, M. A., Simpson, J., Stefanescu, I., Werner, V., Wang, X., Wood, J. L., Yu, C. -H., and Zhu, S.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

The exact nature of the lowest $K^\pi =2_\gamma ^+$ rotational bands in all deformed nuclei remains obscure. Traditionally they are assumed to be collective vibrations of the nuclear shape in the $\gamma$ degree of freedom perpendicular to the nuclear symmetry axis. Very few such $\gamma$-bands have been traced past the usual back-bending rotational alignments of high-j nucleons. We have investigated the structure of positive-parity bands in the N=90 nucleus 156Dy, using the 148Nd(12C,4n)156Dy reaction at 65 MeV, observing the resulting ${\gamma}$-ray transitions with the Gammasphere array. The even- and odd-spin members of the $K^\pi =2_\gamma^+$ $\gamma$-band are observed to 32+ and 31+ respectively. This rotational band faithfully tracks the ground-state configuration to the highest spins. The members of a possible $\gamma$-vibration built on the aligned yrast S-band are observed to spins 28+ and 27+. An even-spin positive-parity band, observed to spin 24+, is a candidate for an aligned S-band built on the seniority-zero configuration of the $0_2^+$ state at 676 keV. The crossing of this band with the $0_2^+$ band is at $\hbar\omega$= 0.28(1) MeV and is consistent with the configuration of the $0_2^+$ band not producing any blocking of the monopole pairing., Comment: Published in Physics Review C

Published
2020
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6. First candidates for {\gamma} vibrational bands built on the [505]11/2- neutron orbital in odd-A Dy isotopes

Author

Majola, S. N. T., Sithole, M. A., Mdletshe, L., Hartley, D., Timar, J., Nyako, B. M., Allmond, J. M., Bark, R. A., Beausang, C., Bianco, L., Bucher, T. D., Bvumbi, S. P., Carpenter, M. P., Chiara, C. J., Cooper, N., Cullen, D. M., Curien, D., Dinoko, T. S., Gall, B. J. P., Garrett, P. E., Greenlees, P. T., Hirvonen, J., Jakobsson, U., Jones, P. M., Julin, R., Juutinen, S., Ketelhut, S., Kheswa, B. V., Kondev, F. G., Korichi, A., Kulp, W. D., Lauritsen, T., Lawrie, E. A., Makhathini, L., Masiteng, P. L., Maqabuka, B., Mccutchan, E. A., Miller, D., Miller, S., Minkova, A., Msebi, L., Mthembu, S. H., Ndayishimye, J., Nieminen, P., Ngcobo, P. Z., Ntshangase, S. S., Orce, J. N., Peura, P., Rahkila, P., Redon, N., Riedinger, L. L., Riley, M. A., Roux, D. G., Ruotsalainen, P., Piot, J., Saren, J., Sharpey-Schafer, J. F., Scholey, C., Shirinda, O., Simpson, J., Sorri, J., Stefanescu, I., Stolze, S., Uusitalo, J., Wang, X., Werner, V., Wood, J. L., Yu, C. H., Zhu, S., and Zimba, G.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

Rotational structures have been measured using the Jurogam II and GAMMASPHERE arrays at low spin following the 155Gd({\alpha},2n)157Dy and 148Nd(12C, 5n)155Dy reactions at 25 and 65 MeV, respectively. We report high-K bands, which are conjectured to be the first candidates of a K{\pi}= 2+ {\gamma} vibrational band, built on the [505]11/2- neutron orbital, in both odd-A 155, 157Dy isotopes. The coupling of the first excited K=0+ states or the so-called \b{eta} vibrational bands at 661 and 676 keV in 154Dy and 156Dy to the [505]11/2- orbital, to produce a K{\pi}=11/2- band, was not observed in both 155Dy and 157Dy, respectively. The implication of these findings on the interpretation of the first excited 0+ states in the core nuclei 154Dy and 156Dy are also discussed., Comment: Published in Physical Rev C

Published
2020
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7. Spectroscopy of low spin states in 157Dy: Search for evidence of enhanced octupole correlations

Author

Majola, S. N. T., Bark, R. A., Bianco, L., Bucher, T. D., Bvumbi, S. P., Cullen, D. M., Garrett, P. E., Greenlees, P. T., Hartley, D., Hirvonen, J, Jakobsson, U., Jones, P. M., Julin, R., Juutinen, S., Ketelhut, S., Kheswa, B. V., Korichi, A., Lawrie, E. A., Masiteng, P. L., Maqabuka, B., Mdletshe, L., Minkova, A., Ndayishimye, J., Nieminen, P., Newman, R., Nyako, B. M., Ntshangase, S. S., Peura, P., Rahkila, P., Riedinger, L. L., Riley, M., Roux, D., Ruotsalainen, P., Saren, J., Sharpey-Schafer, J. F., Scholey, C., Shirinda, O., Sithole, A., Sorri, J., Stolze, S., Timar, J., Uusitalo, J., and Zimba, G.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

Low-spin states of 157Dy have been studied using the JUROGAM II array, following the 155Gd ({\alpha}, 2n) reaction at a beam energy of 25 MeV. The level scheme of 157Dy has been expanded with four new bands. Rotational structures built on the [523]5/2- and [402]3/2+ neutron orbitals constitute new additions to the level scheme as do many of the inter- and intra-band transitions. This manuscript also reports the observation of cross I- to (I-1)- and I- to (I-1)+ E1 dipole transitions inter-linking structures built on the [523]5/2- (band 5) and [402]3/2+ (band 7) neutron orbitals. These interlacing band structures are interpreted as the bands of parity doublets with simplex quantum number s = -i related to possible octupole correlations., Comment: Published in Physical Review C (2019)

Published
2020
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8. Evidence for rigid triaxial deformation in $^{76}$Ge from a model-independent analysis

Author

Ayangeakaa, A. D., Janssens, R. V. F., Zhu, S., Little, D., Henderson, J., Wu, C. Y., Hartley, D. J., Albers, M., Auranen, K., Bucher, B., Carpenter, M. P., Chowdhury, P., Cline, D., Crawford, H. L., Fallon, P., Forney, A. M., Gade, A., Hayes, A. B., Kondev, F. G., Krishichayan, Lauritsen, T., Li, J., Macchiavelli, A. O., Rhodes, D., Seweryniak, D., Stolze, S. M., Walters, W. B., and Wu, J.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

An extensive, model-independent analysis of the nature of triaxial deformation in $^{76}$Ge, a candidate for neutrinoless double-beta ($0\nu\beta\beta$) decay, was carried out following multi-step Coulomb excitation. Shape parameters deduced on the basis of a rotational-invariant sum-rule analysis provided considerable insight into the underlying collectivity of the ground-state and $\gamma$ bands. Both sequences were determined to be characterized by the same $\beta$ and $\gamma$ deformation parameter values. In addition, compelling evidence for low-spin, rigid triaxial deformation in $^{76}$Ge was obtained for the first time from the analysis of the statistical fluctuations of the quadrupole asymmetry deduced from the measured $E2$ matrix elements. These newly determined shape parameters are important input and constraints for calculations aimed at providing, with suitable accuracy, the nuclear matrix elements relevant to $0\nu\beta\beta$., Comment: 6 pages, 5 figures

Published
2019
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9. Longitudinal Wobbling Motion in $^{187}$Au

Author

Sensharma, N., Garg, U., Chen, Q. B., Frauendorf, S., Burdette, D. P., Cozzi, J. L., Howard, K. B., Zhu, S., Carpenter, M. P., Copp, P., Kondev, F. G., Lauritsen, T., Li, J., Seweryniak, D., Wu, J., Ayangeakaa, A. D., Hartley, D. J., Janssens, R. V. F., Forney, A. M., Walters, W. B., Ghugre, S. S., and Palit, R.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

The rare phenomenon of nuclear wobbling motion has been investigated for the nucleus $^{187}$Au. A longitudinal wobbling-bands pair has been identified and clearly distinguished from the associated signature-partner band on the basis of angular distribution measurements. Theoretical calculations in the framework of the Particle Rotor Model (PRM) are found to agree well with the experimental observations. This is the first experimental evidence for longitudinal wobbling bands where the expected signature partner band has also been identified, and establishes this exotic collective mode as a general phenomenon over the nuclear chart., Comment: Revised version. Published in Phys. Rev. Lett

Published
2019
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12. Transverse Wobbling in $^{135}$Pr

Author

Matta, J. T., Garg, U., Li, W., Frauendorf, S., Ayangeakaa, A. D., Patel, D., Schlax, K. W., Palit, R., Saha, S., Sethi, J., Trivedi, T., Ghugre, S. S., Raut, R., Sinha, A. K., Janssens, R. V. F., Zhu, S., Carpenter, M. P., Lauritsen, T., Seweryniak, D., Chiara, C. J., Kondev, F. G., Hartley, D. J., Petrache, C. M., Mukhopadhyay, S., Lakshmi, D. Vijaya, Raju, M. Kumar, Rao, P. V. Madhusudhana, Tandel, S. K., Ray, S., and Dönau, F.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

A pair of transverse wobbling bands has been observed in the nucleus $^{135}$Pr. The wobbling is characterized by $\Delta I$ =1, E2 transitions between the bands, and a decrease in the wobbling energy confirms its transverse nature. Additionally, a transition from transverse wobbling to a three-quasiparticle band comprised of strong magnetic dipole transitions is observed. These observations conform well to results from calculations with the Tilted Axis Cranking (TAC) model and the Quasiparticle Triaxial Rotor (QTR) Model., Comment: 6 pages; 5 figures; accepted for publication in the Physical Review Letters

Published
2015
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13. Statistics and Models of the Electron Plasma Density From the Van Allen Probes.

Author

Ripoll, J.‐F., Thaller, S. A., Hartley, D. P., Malaspina, D. M., Kurth, W. S., Cunningham, G. S., Pierrard, V., and Wygant, J.

Subjects
ELECTRIC charge, PLASMA density, LOW temperature plasmas, ELECTRON plasma, ELECTRIC waves
Abstract

We use the full NASA Van Allen Probes mission (2012–2019) to extract the electron plasma density from the Electric and Magnetic Field Instrument Suite and Integrated Science (EMFISIS) and Electric Field and Waves (EFW) instruments and discuss the evolution of the plasmasphere. We generate new statistics including mean and standard deviations of the plasma density with respect to L‐shell, magnetic local time (MLT), and various geomagnetic indices. These statistics are generated to be applied in radiation belt physics and space weather codes (with fits provided). The mean plasmasphere is circular around Earth with respect to MLT for Kp < 1. The mean 100 cm−3 level line is above L = 5 and mean 10 cm−3 level expands above the Van Allen Probes apogee for Kp < 1. The outer electron belt lies within the plasmasphere for 60% of all times. As activity increases (Kp > 2), a gradual MLT asymmetry forms with higher mean density in the afternoon sector due to plumes expanding outward. Conversely, the mean density decreases on the dawn and night sectors. The mean density is between ∼500 and ∼50 cm−3 between L ∼ 4 and L ∼ 6 during quiet and moderately active times (Kp < 3), representing ∼80% of all times. Statistics in regions of high density below L = 2 are underdefined for intense activity. The highest standard deviation of density represents a factor 2.5 to 3 times the mean above L = 5 and for active times. We find the percent difference between the EFW and EMFISIS densities is bounded by ±20% for quiet and moderate activity (Kp < 5) and goes up to ±100% for extreme activity. Plain Language Summary: The Earth's plasmasphere, discovered in the 1950s, is a region of cold plasma made of ions and electrons of a few electronvolts in energy, originating from upwelling ionized gas from the ionosphere and forming a rotating torus around the Earth. The radial profile of the electron cold plasma density within the plasmasphere decays from 10,000 electrons per cubic centimeter at ∼1,000 km altitude to 10s electrons per cubic centimeter at its outer edge, sometimes exceeding ∼36,000 km in altitude at the equator. The state of the plasmasphere is highly dependent on geomagnetic conditions, with geomagnetic storms and substorms eroding parts of this plasma. Here, we analyze 7 years of NASA Van Allen Probes measurements of the electron plasma density and generate statistics with respect to L‐shell, magnetic local time, and geomagnetic indices. In this way, we show statistical variations of the plasmasphere, a strong magnetic local time dependence, and erosion with increasing geomagnetic activity. New mean electron densities and their standard deviation are generated and fitted with model functions that can be incorporated into space weather codes. This is important because the electron density is a key parameter influencing the strength of wave‐particle interactions that accelerate and scatter energetic particles in the inner magnetosphere. Key Points: Generation of new statistics of mean and standard deviation of the plasma density from Electric Field and Waves and Electric and Magnetic Field Instrument Suite and Integrated Science of RBSP for the whole missionEmpirical density models made of fits are provided versus L‐shell, magnetic local time (MLT), and geomagnetic indices to be used in radiation belt codesAn extensive analysis of the cold plasma statistics is provided with respect to L‐shell, MLT, and geomagnetic activity [ABSTRACT FROM AUTHOR]

Published
2024
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15. Determination of the spins and parities for the 04+ and 05+ states in Zr100

Author

Wu, J., primary, Carpenter, M. P., additional, Kondev, F. G., additional, Janssens, R. V. F., additional, Zhu, S., additional, McCutchan, E. A., additional, Ayangeakaa, A. D., additional, Chen, J., additional, Clark, J., additional, Hartley, D. J., additional, Lauritsen, T., additional, Pietralla, N., additional, Savard, G., additional, Seweryniak, D., additional, and Werner, V., additional

Published
2024
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18. Multi-quasiparticle structures up to spin $\sim{44}\hbar$ in the odd-odd nucleus $^{168}$Ta

Author

Wang, X., Hartley, D. J., Riley, M. A., Riedinger, L. L., Aguilar, A., Carpenter, M. P., Chiara, C. J., Chowdhury, P., Darby, I., Garg, U., Ijaz, Q., Janssens, R. V. F., Kondev, F. G., Lakshmi, S., Lauritsen, T., Ma, W. C., McCutchan, E. A., Mukhopadhyay, S., Seyfried, E. P., Stefanescu, I., Tandel, S. K., Tandel, U. S., Teal, C., Vanhoy, J. R., and Zhu, S.

Subjects
Nuclear Experiment
Abstract

High-spin states in the odd-odd nucleus $^{168}$Ta have been populated in the $^{120}$Sn($^{51}$V,3n) reaction. Two multi-quasiparticle structures have been extended significantly from spin $\sim{20\hbar}$ to above ${40\hbar}$. As a result, the first rotational alignment has been fully delineated and a second band crossing has been observed for the first time in this nucleus. Configurations for these strongly-coupled rotational bands are proposed based on signature splitting, $B(M1)/B(E2)$ ratio information, and observed rotation-alignment behavior. Properties of the observed bands in $^{168}$Ta are compared to related structures in the neighboring odd-$Z$, odd-$N$, and odd-odd nuclei and are discussed within the framework of the cranked shell model., Comment: 9 pages, 9 figures, Gammasphere experiment

Published
2010
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19. Quadrupole Moments of Collective Structures up to Spin $\sim$ $65\hbar$ in $^{157}$Er and $^{158}$Er: A Challenge for Understanding Triaxiality in Nuclei

Author

Wang, X., Riley, M. A., Simpson, J., Paul, E. S., Ollier, J., Janssens, R. V. F., Ayangeakaa, A. D., Boston, H. C., Carpenter, M. P., Chiara, C. J., Garg, U., Hartley, D. J., Judson, D. S., Kondev, F. G., Lauritsen, T., Matta, J., Nolan, P. J., Petri, M., Revill, J. P., Riedinger, L. L., Rigby, S. V., Unsworth, C., Zhu, S., and Ragnarsson, I.

Subjects
Nuclear Experiment
Abstract

The transition quadrupole moments, $Q_{\rm t}$, of four weakly populated collective bands up to spin $\sim$ $65\hbar$ in $^{157,158}$Er have been measured to be ${\sim}11 {\rm eb}$ demonstrating that these sequences are associated with large deformations. However, the data are inconsistent with calculated values from cranked Nilsson-Strutinsky calculations that predict the lowest energy triaxial shape to be associated with rotation about the short principal axis. The data appear to favor either a stable triaxial shape rotating about the intermediate axis or, alternatively, a triaxial shape with larger deformation rotating about the short axis. These new results challenge the present understanding of triaxiality in nuclei., Comment: 6 pages, 5 figures, Phys. Lett. B, in press

Published
2010
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20. Light Curves and Period Changes of Type II Cepheids in the Globular Clusters M3 and M5

Author

Rabidoux, Katie, Smith, Horace A., Pritzl, Barton J., Osborn, Wayne, Kuehn, Charles, Randall, Jill, Lustig, R., Wells, K., Taylor, Lisa, De Lee, Nathan, Kinemuchi, K., LaCluyzé, Aaron, Hartley, D., Greenwood, C., Ingber, M., Ireland, M., Pellegrini, E., Anderson, Mary, Purdum, Gene, Lacy, J., Curtis, M., Smolinski, Jason, and Danford, Stephen

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

Light curves in the B, V, and I_c passbands have been obtained for the type II Cepheids V154 in M3 and V42 and V84 in M5. Alternating cycle behavior, similar to that seen among RV Tauri variables, is confirmed for V84. Old and new observations, spanning more than a century, show that V154 has increased in period while V42 has decreased in period. V84, on the other hand, has shown large, erratic changes in period that do not appear to reflect the long term evolution of V84 through the HR diagram., Comment: 28 pages, 12 figures

Published
2010
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21. Global Lifetime Measurements of Highly-Deformed and Other Rotational Structures in the A~135 Light Rare-Earth Region: Probing the Single-Particle Motion in a Rotating Potential

Author

Riley, M. A., Laird, R. W., Kondev, F. G., Hartley, D. J., Archer, D. E., Brown, T. B., Clark, R. M., evlin, M. D, Fallon, P., Hibbert, I. M., Joss, D. T., LaFosse, D. R., Nolan, P. J., O'Brien, N. J., Paul, E. S., Pfohl, J., Sarantites, D. G., Sheline, R. K., Shepherd, S. L., Simpson, J., Wadsworth, R., Matev, M. T., Afanasjev, A. V., Dobaczewski, J., Lalazissis, G. A., Nazarewicz, W., and Satula, W.

Subjects
Nuclear Experiment
Abstract

It has been possible, using GAMMASPHERE plus Microball,to extract differential lifetime measurements free from common systematic errors for over 15 different nuclei (various isotopes of Ce, Pr, Nd, Pm, and Sm) at high spin within a single experiment. This comprehensive study establishes the effective single-particle quadrupole moments in the A~135 light rare-earth region. Detailed comparisons are made with calculations using the self-consistent cranked mean-field theory., Comment: 14 pages, 3 postscript figures. "High Spin Physics 2001" Warsaw, Poland, February 6--10, 2001, Acta Physica Polonica (in press)

Published
2001

23. Paradas

Author

Hartley D. Price

Subjects
Sports, GV557-1198.995
Abstract

...

Published
2020

26. First β− -decay spectroscopy study of Nd157

Author

Hartley, D. J., primary, Kondev, F. G., additional, Carpenter, M. P., additional, Clark, J. A., additional, Copp, P., additional, Kay, B., additional, Lauritsen, T., additional, Savard, G., additional, Seweryniak, D., additional, Wilson, G. L., additional, and Wu, J., additional

Published
2023
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27. Van Allen Probes Observations of a Three‐Dimensional Field Line Resonance at a Plasmaspheric Plume.

Author

Sandhu, J. K., Degeling, A. W., Elsden, T., Murphy, K. R., Rae, I. J., Wright, A. N., Hartley, D. P., and Smith, A.

Subjects
RESONANCE, MAGNETIC storms, LOW temperature plasmas, GEOMAGNETISM, PLASMA waves, SPACE environment, PLASMA sheaths
Abstract

Field Line Resonances (FLRs) are a critical component in Earth's magnetospheric dynamics, associated with the transfer of energy between Ultra Low Frequency waves and local plasma populations. In this study we investigate how the polarisation of FLRs are impacted by cold plasma density distributions during geomagnetic storms. We present an analysis of Van Allen Probe A observations, where the spacecraft traversed a storm time plasmaspheric plume. We show that the polarisation of the FLR is significantly altered at the sharp azimuthal density gradient of the plume boundary, where the polarisation is intermediate with significant poloidal and toroidal components. These signatures are consistent with magnetohydrodynamic modeling results, providing the first observational evidence of a 3D FLR associated with a plume in Earth's magnetosphere. These results demonstrate the importance of cold plasma in controlling wave dynamics in the magnetosphere, and have important implications for wave‐particle interactions at a range of energies. Plain Language Summary: Earth's space environment is home to electrons and ions across a wide range of energies, trapped in the region by our global geomagnetic field. Energy can be transferred to and from the trapped particles through oscillations in the magnetic field, and these processes are responsible for the extreme energization of trapped electrons to hazardous levels for local spacecraft. In this paper we explore a type of magnetic field oscillation termed Field Line Resonances (FLRs): standing waves on a field line analogous to the oscillatory motion of guitar strings. We use spacecraft observations to show that the direction of the field line oscillations changes significantly depending on the density of the background plasma. The results confirm previous modeling work, and are the first observational evidence of 3D FLRs at a plume. The findings have important consequences for how FLRs transfer energy between the electrons and ions. Key Points: We present the first observational evidence of a 3D Field Line Resonance at the sharp density gradient of a plume edgeThe observed polarisation change confirms magnetohydrodynamic modeling results and predictions made by Elsden and Wright (2022)The presence of 3D Field Line Resonances during storm times has impacts for how Ultra Low Frequency waves couple and interact with local plasma [ABSTRACT FROM AUTHOR]

Published
2023
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28. Evolution of structure and shapes in Er158 to ultrahigh spin

Author

Simpson, J., primary, Riley, M. A., additional, Pipidis, A., additional, Paul, E. S., additional, Wang, X., additional, Nolan, P. J., additional, Sharpey-Schafer, J. F., additional, Aguilar, A., additional, Appelbe, D. E., additional, Ayangeakaa, A. D., additional, Boston, A. J., additional, Boston, H. C., additional, Campbell, D. B., additional, Carpenter, M. P., additional, Chiara, C. J., additional, Choy, P. T. W., additional, Clark, R. M., additional, Cromaz, M., additional, Evans, A. O., additional, Fallon, P., additional, Garg, U., additional, Görgen, A., additional, Hartley, D. J., additional, Janssens, R. V. F., additional, Joss, D. T., additional, Judson, D. S., additional, Kondev, F. G., additional, Lauritsen, T., additional, Lee, I. Y., additional, Macchiavelli, A. O., additional, Matta, J. T., additional, Ollier, J., additional, Petri, M., additional, Revill, J. P., additional, Riedinger, L. L., additional, Rigby, S. V., additional, Teal, C., additional, Twin, P. J., additional, Unsworth, C., additional, Ward, D., additional, Zhu, S., additional, and Ragnarsson, I., additional

Published
2023
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30. Using Van Allen Probes and Arase Observations to Develop an Empirical Plasma Density Model in the Inner Zone

Author

Hartley, D. P., primary, Cunningham, G. S., additional, Ripoll, J.‐F., additional, Malaspina, D. M., additional, Kasahara, Y., additional, Miyoshi, Y., additional, Matsuda, S., additional, Nakamura, S., additional, Tsuchiya, F., additional, Kitahara, M., additional, Kumamoto, A., additional, Shinohara, I., additional, and Matsuoka, A., additional

Published
2023
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32. Modeling magnetospheric mass density and average ion mass using spacecraft observations

Author

Denton, R., Takahashi, K., Min, K., Hartley, D., and Nishimura, Y.

Abstract

By combining measurements of mass density from Alfven wave frequencies and electron density from plasma wave frequencies, we model both mass density and average ion mass in the magnetosphere between L = 2 and 10. Using a new model of the electron density at the midpoint of the plasmapause, we also separate the data into plasmasphere and plasmatrough portions. We then develop an empirical formulas for mass density and average ion mass within the plasmasphere and plasmatrough. The plasmasphere is composed almost totally of H+. The plasmatrough has a higher percentage of heavy ions, with average ion mass increasing with the solar EUV index F10.7, the geomagnetic activity index AE, solar wind dynamic pressure, and at pre-dawn local time and large L. We also demonstrate the danger of investigations of spatial dependence that do not take into account different conditions for different spatial regions sampled. In this study, we avoid this problem by using multivariate regression.

Published
2023

34. Statistics and Empirical Models of the Plasmasphere Boundaries From the Van Allen Probes for Radiation Belt Physics

Author

Ripoll, J.‐F., Thaller, S. A., Hartley, D. P., Cunningham, G. S., Pierrard, V., Kurth, W. S., Kletzing, C. A., Wygant, J. R., and UCL - SST/ELI/ELIC - Earth & Climate

Subjects
Geophysics, General Earth and Planetary Sciences
Abstract

We deduce the electron plasma density from the NASA Van Allen Probes Electric Field and Waves and Electric and Magnetic Field Instrument Suite and Integrated Science measurements and extract the plasmasphere boundaries throughout 2012–2019. We use the gradient method for locating the plasmapause at Lpp and the 100 cm−3 density threshold for the plasmasphere outer edge at L100. We show how, where, and when both Lpp and L100 coincide when the plasmapause gradient exists. L100 is demonstrated to bound the plasmasphere at large L-shell in the dusk. The plasmasphere expands farther out than predicted from the Carpenter and Anderson (1992, https://doi.org/10.1029/91JA01548) model. We generate statistics of the plasmasphere boundaries binned by L-shell, magnetic local time (MLT), and geomagnetic indices, leading to new models for radiation belt codes. The L100 boundary commonly varies by ∼±0.5 L, increasing with activity up to ∼±1 L, becomes MLT-dependent for Kp > ∼2, and is preferentially steep on the night side for non-quiet times and a wider region in the afternoon sector.

Published
2022

38. Coulomb excitation and transfer reactions with neutron-rich radioactive beams

Author

Radford, D. C., Baktash, C., Barton, C. J., Batchelder, J., Beene, J. R., Bingham, C. R., Caprio, M. A., Danchev, M., Fuentes, B., Galindo-Uribarri, A., Gomez del Campo, J., Gross, C. J., Halbert, M. L., Hartley, D. J., Hausladen, P., Hwang, J. K., Krolas, W., Larochelle, Y., Liang, J. F., Mueller, P. E., Padilla, E., Pavan, J., Piechaczek, A., Shapira, D., Stracener, D. W., Varner, R. L., Woehr, A., Yu, C. -H., Zamfir, N. V., Gross, Carl J., editor, Nazarewicz, Witold, editor, and Rykaczewski, Krzysztof P., editor

Published
2005
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39. Statistics and Empirical Models of the Plasmasphere Boundaries From the Van Allen Probes for Radiation Belt Physics

Author

UCL - SST/ELI/ELIC - Earth & Climate, Ripoll, J.‐F., Thaller, S. A., Hartley, D. P., Cunningham, G. S., Pierrard, Viviane, Kurth, W. S., Kletzing, C. A., Wygant, J. R., UCL - SST/ELI/ELIC - Earth & Climate, Ripoll, J.‐F., Thaller, S. A., Hartley, D. P., Cunningham, G. S., Pierrard, Viviane, Kurth, W. S., Kletzing, C. A., and Wygant, J. R.

Abstract

We deduce the electron plasma density from the NASA Van Allen Probes Electric Field and Waves and Electric and Magnetic Field Instrument Suite and Integrated Science measurements and extract the plasmasphere boundaries throughout 2012–2019. We use the gradient method for locating the plasmapause at Lpp and the 100 cm−3 density threshold for the plasmasphere outer edge at L100. We show how, where, and when both Lpp and L100 coincide when the plasmapause gradient exists. L100 is demonstrated to bound the plasmasphere at large L-shell in the dusk. The plasmasphere expands farther out than predicted from the Carpenter and Anderson (1992, https://doi.org/10.1029/91JA01548) model. We generate statistics of the plasmasphere boundaries binned by L-shell, magnetic local time (MLT), and geomagnetic indices, leading to new models for radiation belt codes. The L100 boundary commonly varies by ∼±0.5 L, increasing with activity up to ∼±1 L, becomes MLT-dependent for Kp > ∼2, and is preferentially steep on the night side for non-quiet times and a wider region in the afternoon sector.

Published
2022

40. The A~130 Highly-Deformed Region: New Results and Global Differential Lifetime Measurements

Author

Riley, M. A., Kondev, F. G., Laird, R. W., Pfohl, J., Archer, D. E., Brown, T. B., Clark, R. M., Devlin, M., Fallon, P., Hartley, D. J., Hibbert, I. M., Joss, D. T., LaFosse, D. R., Lerma, F., Nolan, P. J., O’Brien, N. J., Paul, E. S., Sarantites, D. G., Sheline, R. K., Shepherd, S. L., Simpson, J., Wadsworth, R., Smit, F. D., editor, Lindsay, R., editor, and Förtsch, S. V., editor

Published
1999
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45. Study of the N = 77 odd-Z isotones near the proton-drip line

Author

Tantawy, M. N., Bingham, C. R., Mazzocchi, C., Grzywacz, R., Królas, W., Rykaczewski, K. P., Batchelder, J. C., Gross, C. J., Fong, D., Hamilton, J. H., Hartley, D. J., Hwang, J. K., Larochelle, Y., Piechaczek, A., Ramayya, A. V., Shapira, D., Winger, J. A., Yu, C. -H., Zganjar, E. F., Gross, Carl J., editor, Nazarewicz, Witold, editor, and Rykaczewski, Krzysztof P., editor

Published
2005
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46. νi13/2 structures in Sm155 and Gd159 : Supporting evidence of a Z=60 deformed subshell gap

Author

Hartley, D. J., primary, Kondev, F. G., additional, Carpenter, M. P., additional, Janssens, R. V. F., additional, Riley, M. A., additional, Villafana, K., additional, Auranen, K., additional, Ayangeakaa, A. D., additional, Baron, J. S., additional, Boston, A. J., additional, Clark, J. A., additional, Greene, J. P., additional, Heery, J., additional, Hoffman, C. R., additional, Lauritsen, T., additional, Li, J., additional, Little, D., additional, Paul, E. S., additional, Savard, G., additional, Seweryniak, D., additional, Simpson, J., additional, Stolze, S., additional, Wilson, G. L., additional, Wu, J., additional, and Zhu, S., additional

Published
2022
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47. Physics with heavy neutron-rich RIBs at the HRIBF

Author

Radford, D. C., Baktash, C., Galindo-Uribarri, A., Gross, C. J., Lewis, T. A., Mueller, P. E., Hausladen, P. A., Shapira, D., Stracener, D. W., Yu, C.-H., Fuentes, B., Padilla, E., Hartley, D. J., Barton, C. J., Caprio, M., Zamfir, N. V., Äystö, Juha, editor, Dendooven, Peter, editor, Jokinen, Ari, editor, and Leino, Matti, editor

Published
2003
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50. The roles of the magnetopause and plasmapause in storm‐time ULF wave power enhancements

Author

Sandhu, J. K., Rae, I. J., Staples, F. A., Hartley, D. P., Walach, M.-T., Elsden, T., and Murphy, K. R.

Abstract

Ultra low frequency (ULF) waves play a crucial role in transporting and coupling energy within the magnetosphere. During geomagnetic storms, dayside magnetospheric ULF wave power is highly variable with strong enhancements that are dominated by elevated solar wind driving. However, the radial distribution of ULF wave power is complex - controlled interdependently by external solar wind driving and the internal magnetospheric structuring. We conducted a statistical analysis of observed storm-time ULF wave power from the Van Allen Probes spacecraft within 2012–2016. Focusing on the dayside (06 < magnetic local time ≤ 15), we observe large enhancements across 3 < L < 6 and a steep L dependence during the main phase. We consider how accounting for concurrent magnetopause and plasmapause locations may reduce statistical variability and improve parameterization of spatial trends over and above using the L value. Ordering storm time ULF wave power by L provides the weakest dependences from those considered, whereas ordering by distance from the magnetopause is more effective. We also explore dependences on local plasma density and find that spatially localized ULF wave power enhancements are confined within high density patches in the afternoon sector (likely plasmaspheric plumes). The results have critical implications for empirical models of ULF wave power and radial diffusion coefficients. We highlight the necessity of improved characterization of the highly distorted storm-time cold plasma density distribution, in order to more accurately predict ULF wave power.

Published
2021

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