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115 results on '"Harding, R. D."'

1. High-accuracy liquid-sample $\beta$-NMR setup at ISOLDE

Author

Croese, J., Baranowski, M., Bissell, M. L., Dziubinska-Kühn, K. M., Gins, W., Harding, R. D., Jolivet, R. B., Kanellakopoulos, A., Karg, B., Kulesz, K., Flores, M. Madurga, Neyens, G., Pallada, S., Pietrzykc, R., Pomorski, M., Wagenknecht, P., Zakouckyk, D., and Kowalska, M.

Subjects
Physics - Instrumentation and Detectors
Abstract

Recently there has been an increased interest to apply the sensitive $\beta$-decay asymmetry detected nuclear magnetic resonance ($\beta$-NMR) technique to biological studies. A liquid-sample $\beta$-NMR setup was build at ISOLDE to allow such investigations and to use the resolution gain of liquid-state NMR in nuclear physics. As part of this setup a magnetic field locking system, a set of printed circuit board shimming coils, a sample exchange system, a set of compact $\beta$-detectors and a custom experimental vacuum chamber were developed. The main magnetic field was stabilized down to the ppm level by the locking system while allowing the direct determination of the absolute magnetic field. The homogeneity of the magnetic field was improved to $\leq$~5~ppm over the sample volume by the shimming coils. Time spent on changing samples was reduced by a factor of five by the liquid sample exchange system. During experiments it was possible to continuously observe the liquid sample thanks to the custom chamber and compact $\beta$-detectors. The absolute field determination allows for a novel way to reference $\beta$-NMR measurements, removing the need for time consuming reference measurements. The improved accuracy and resolution resulting from these innovations allows the study of the distribution of nuclear magnetization and (bio)chemicals using high-accuracy liquid-sample $\beta$-NMR.

Published
2021
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2. Magnetic moments of short-lived nuclei with part-per-million accuracy: Towards novel applications of $\beta$-detected NMR in physics, chemistry and biology

Author

Harding, R. D., Pallada, S., Croese, J., Antušek, A. A., Baranowski, M., Bissell, M. L., Cerato, L., Dziubinska-Kühn, Gins, W., Gustafsson, F. P., Javaji, A., Jolivet, R. B., Kanellakopoulos, A., Karg, B., Kocman, M. Kempka V., Kozak, M., Kulesz, K., Flores, M. Madurga, Neyens, G., Plavec, R. Pietrzyk J., Pomorski, M., Skrzypczak, A., Wagenknecht, P., Wienholtz, F., Xu, J. Wolak Z., Zakoucky, D., and Kowalska, M.

Subjects
Physics - Chemical Physics, Nuclear Experiment
Abstract

We determine for the first time the magnetic dipole moment of a short-lived nucleus with part-per-million (ppm) accuracy. To achieve this two orders of magnitude improvement over previous studies, we implement a number of innovations into our $\beta$-detected Nuclear Magnetic Resonance ($\beta$-NMR) setup at ISOLDE/CERN. Using liquid samples as hosts we obtain narrow, sub-kHz linewidth, resonances, while a simultaneous in-situ $^1$H NMR measurement allows us to calibrate and stabilize the magnetic field to ppm precision, thus eliminating the need for additional $\beta$-NMR reference measurements. Furthermore, we use ab initio calculations of NMR shielding constants to improve the accuracy of the reference magnetic moment, thus removing a large systematic error. We demonstrate the potential of this combined approach with the 1.1 s half-life radioactive nucleus $^{26}$Na, which is relevant for biochemical studies. Our technique can be readily extended to other isotopic chains, providing accurate magnetic moments for many short-lived nuclei. Furthermore, we discuss how our approach can open the path towards a wide range of applications of the ultra-sensitive $\beta$-NMR in physics, chemistry, and biology., Comment: re-submitted

Published
2020
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3. A new beamline for laser spin-polarization at ISOLDE

Author

Gins, W., Harding, R. D., Baranowski, M., Bissell, M. L., Ruiz, R. F. Garcia, Kowalska, M., Neyens, G., Pallada, S., Severijns, N., Velten, Ph., Wienholtz, F., Xu, Z. Y., Yang, X. F., and Zakoucky, D.

Subjects
Physics - Instrumentation and Detectors
Abstract

A beamline dedicated to the production of laser-polarized radioactive beams has been constructed at ISOLDE, CERN. We present here different simulations leading to the design and construction of the setup, as well as technical details of the full setup and examples of the achieved polarizations for several radioisotopes. Beamline simulations show a good transmission through the entire line, in agreement with observations. Simulations of the induced nuclear spin-polarization as a function of atom-laser interaction length are presented for $^{26,28}$Na, [1] and for $^{35}$Ar, which is studied in this work. Adiabatic spin rotation of the spin-polarized ensemble of atoms, and how this influences the observed nuclear ensemble polarization, are also performed for the same nuclei. For $^{35}$Ar, we show that multiple-frequency pumping enhances the ensemble polarization by a factor 1.85, in agreement with predictions from a rate equations model. [1] J. Phys. G: Nucl. Part. Phys./1744084005

Published
2018
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11. $\gamma$-soft $^{146}$Ba and the role of non-axial shapes at N ~ 90

Author

Mitchell, A. J., Lister, C. J., McCutchan, E. A., Albers, M., Ayangeakaa, A. D., Bertone, P. F., Carpenter, M. P., Chiara, C. J., Chowdhury, P., Clark, J. A., Copp, P., David, H. M., Deo, A. Y., DiGiovine, B., D'Olympia, N., Dungan, R., Harding, R. D., Harker, J., Hota, S. S., Janssens, R. V. F., Kondev, F. G., Liu, S. H., Ramayya, A. V., Rissanen, J., Savard, G., Seweryniak, D., Shearman, R., Sonzogni, A. A., Tabor, S. L., Walters, W. B., Wang, E., and Zhu, S.

Subjects
Nuclear Experiment
Abstract

Low-spin states in the neutron-rich, N = 90 nuclide $^{146}$Ba were populated following $\beta$-decay of $^{146}$Cs, with the goal of clarifying the development of deformation in Ba isotopes through delineation of their non-yrast structures. Fission fragments of $^{146}$Cs were extracted from a 1.7-Ci $^{252}$Cf source and mass-selected using the CARIBU facility. Low-energy ions were deposited at the center of a box of thin $\beta$ detectors, surrounded by a high-efficiency HPGe array. The new $^{146}$Ba decay scheme now contains 31 excited levels extending up to ~2.5 MeV excitation energy, double what was previously known. These data are compared to predictions from the Interacting Boson Approximation (IBA) model. It appears that the abrupt shape change found at N = 90 in Sm and Gd is much more gradual in Ba and Ce, due to an enhanced role of the $\gamma$ degree of freedom., Comment: 10 pages, 8 figures, accepted to Physical Review C

Published
2015
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12. Deformation versus Sphericity in the Ground States of the Lightest Gold Isotopes

Author

Cubiss, J. G., primary, Andreyev, A. N., additional, Barzakh, A. E., additional, Van Duppen, P., additional, Hilaire, S., additional, Péru, S., additional, Goriely, S., additional, Al Monthery, M., additional, Althubiti, N. A., additional, Andel, B., additional, Antalic, S., additional, Atanasov, D., additional, Blaum, K., additional, Cocolios, T. E., additional, Day Goodacre, T., additional, de Roubin, A., additional, Farooq-Smith, G. J., additional, Fedorov, D. V., additional, Fedosseev, V. N., additional, Fink, D. A., additional, Gaffney, L. P., additional, Ghys, L., additional, Harding, R. D., additional, Huyse, M., additional, Imai, N., additional, Joss, D. T., additional, Kreim, S., additional, Lunney, D., additional, Lynch, K. M., additional, Manea, V., additional, Marsh, B. A., additional, Martinez Palenzuela, Y., additional, Molkanov, P. L., additional, Neidherr, D., additional, O’Neill, G. G., additional, Page, R. D., additional, Prosnyak, S. D., additional, Rosenbusch, M., additional, Rossel, R. E., additional, Rothe, S., additional, Schweikhard, L., additional, Seliverstov, M. D., additional, Sels, S., additional, Skripnikov, L. V., additional, Stott, A., additional, Van Beveren, C., additional, Verstraelen, E., additional, Welker, A., additional, Wienholtz, F., additional, Wolf, R. N., additional, and Zuber, K., additional

Published
2023
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15. Large Shape Staggering in Neutron-Deficient Bi Isotopes

Author

Barzakh, A., Andreyev, A. N., Raison, C., Cubiss, J. G., Van Duppen, P., Péru, S., Hilaire, S., Goriely, S., Andel, B., Antalic, S., Al Monthery, M., Berengut, J. C., Bieroifmmode nelse ń, J., Bissell, M. L., Borschevsky, A., Chrysalidis, K., Cocolios, T. E., Day Goodacre, T., Dognon, J.-P., Elantkowska, M., Eliav, E., Farooq-Smith, G. J., Fedorov, D. V., Fedosseev, V. N., Gaffney, L. P., Garcia Ruiz, R. F., Godefroid, M., Granados, C., Harding, R. D., Heinke, R., Huyse, M., Karls, J., Larmonier, P., Li, J. G., Lynch, K. M., Maison, D. E., Marsh, B. A., Molkanov, P., Mosat, P., Oleynichenko, A. V., Panteleev, V., Pyykkö, P., Reitsma, M. L., Rezynkina, K., Rossel, R. E., Rothe, S., Ruczkowski, J., Schiffmann, S., Seiffert, C., and Seliverstov, M. D.

Published
2021

16. A Consortium Approach to Courseware Design in Mathematics.

Author

Harding, R. D.

Abstract

Describes Mathwise, a courseware delivery environment developed by the United Kingdom Mathematics Courseware Consortium, whose Courseware Manager provides a protocol for integrating courseware materials from a variety of authors using a variety of software authoring tools. Modules, leaflets and cross-referencing, comparisons with other hypertext systems, and future possibilities are discussed. (LRW)

Published
1996

17. Lessons in Developing Mathematical Courseware.

Author

Harding, R. D.

Abstract

As part of a cross-disciplinary project to develop interactive, multimedia college instruction, a mathematics team developed a hypertext version of an existing textbook and created seven modules in basic calculus. Lessons and principles learned about courseware development are presented here to help faculty without previous software experience to become better courseware authors. (Author/MSE)

Published
1995

18. Multimedia Interactive Mathematics Courseware: The Mathematics Experience within the Renaissance Project.

Author

Harding, R. D.

Abstract

Describes experiences in mathematics with the Renaissance Project, a project designed in the United Kingdom to demonstrate the potential for interactive multimedia in higher education. Highlights include using HyperCard for mathematics software; courseware advantages; copyright; and courseware design issues, including navigation, examples, and helping the user. (LRW)

Published
1995

19. Large Shape Staggering in Neutron-Deficient Bi Isotopes

Author

Barzakh, A., primary, Andreyev, A. N., additional, Raison, C., additional, Cubiss, J. G., additional, Van Duppen, P., additional, Péru, S., additional, Hilaire, S., additional, Goriely, S., additional, Andel, B., additional, Antalic, S., additional, Al Monthery, M., additional, Berengut, J. C., additional, Bieroń, J., additional, Bissell, M. L., additional, Borschevsky, A., additional, Chrysalidis, K., additional, Cocolios, T. E., additional, Day Goodacre, T., additional, Dognon, J.-P., additional, Elantkowska, M., additional, Eliav, E., additional, Farooq-Smith, G. J., additional, Fedorov, D. V., additional, Fedosseev, V. N., additional, Gaffney, L. P., additional, Garcia Ruiz, R. F., additional, Godefroid, M., additional, Granados, C., additional, Harding, R. D., additional, Heinke, R., additional, Huyse, M., additional, Karls, J., additional, Larmonier, P., additional, Li, J. G., additional, Lynch, K. M., additional, Maison, D. E., additional, Marsh, B. A., additional, Molkanov, P., additional, Mosat, P., additional, Oleynichenko, A. V., additional, Panteleev, V., additional, Pyykkö, P., additional, Reitsma, M. L., additional, Rezynkina, K., additional, Rossel, R. E., additional, Rothe, S., additional, Ruczkowski, J., additional, Schiffmann, S., additional, Seiffert, C., additional, Seliverstov, M. D., additional, Sels, S., additional, Skripnikov, L. V., additional, Stryjczyk, M., additional, Studer, D., additional, Verlinde, M., additional, Wilman, S., additional, and Zaitsevskii, A. V., additional

Published
2021
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21. Laser-assisted nuclear decay spectroscopy of Au176,177,179

Author

Harding, R. D., primary, Andreyev, A. N., additional, Barzakh, A. E., additional, Cubiss, J. G., additional, Van Duppen, P., additional, Al Monthery, M., additional, Althubiti, N. A., additional, Andel, B., additional, Antalic, S., additional, Cocolios, T. E., additional, Goodacre, T. Day, additional, Dockx, K., additional, Farooq-Smith, G. J., additional, Fedorov, D. V., additional, Fedosseev, V. N., additional, Fink, D. A., additional, Gaffney, L. P., additional, Ghys, L., additional, Johnson, J. D., additional, Joss, D. T., additional, Huyse, M., additional, Imai, N., additional, Lynch, K. M., additional, Marsh, B. A., additional, Martinez Palenzuela, Y., additional, Molkanov, P. L., additional, O'Neill, G. G., additional, Page, R. D., additional, Rossel, R. E., additional, Rothe, S., additional, Seliverstov, M. D., additional, Sels, S., additional, Van Beveren, C., additional, and Verstraelen, E., additional

Published
2021
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22. Laser-assisted nuclear decay spectroscopy of $^{176,177,179}$Au

Author

Harding, R. D., Andreyev, A. N., Barzakh, A. E., Cubiss, J. G., Van Duppen, P., Al Monthery, M., Althubiti, N. A., Andel, B., Antalic, S., Cocolios, T. E., Goodacre, T. Day, Dockx, K., Farooq-Smith, G. J., Fedorov, D. V., Fedosseev, V. N., Fink, D. A., Gaffney, L. P., Ghys, L., Johnson, J. D., Joss, D. T., Huyse, M., Imai, N., Lynch, K. M., Marsh, B. A., Martinez Palenzuela, Y., Molkanov, P. L., O'Neill, G. G., Page, R. D., Rossel, R. E., Rothe, S., Seliverstov, M. D., Sels, S., Van Beveren, C., and Verstraelen, E.

Subjects
Nuclear Physics - Experiment, Physics::Atomic Physics, Nuclear Experiment
Abstract

A study of the laser-ionized and mass-separated neutron-deficient isotopes $^{176,177,179}$Au was performed using the Resonance Ionization Laser Ion Source and the Windmill detection setup at ISOLDE, CERN. New and improved data on complex fine-structure α decays of the three isotopes were deduced, providing insight into the low-lying levels in the daughter nuclei $^{172,173,175}$Ir. New information on the properties of β-decay daughter products $^{177,179}$Pt was also obtained. From the first in-source laser spectroscopy measurements of the hyperfine structure in the atomic 267.6-nm transition of 176Au, the nuclear magnetic moments for both high- and low-spin α-decaying states were deduced. Together with the values determined from the additivity relations, they were used to propose the most probable spins and configurations for both states. The α-decay branching ratios were determined as $b_{\alpha}$ $\left (^{176}\textrm{Au}^{ls}\right)=58(5)$% and $b_{\alpha}$ $(^{176} \textrm{Au}^{hs})=29(5)$%.

Published
2021

23. Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of β-Detected NMR in Physics, Chemistry, and Biology

Author

Harding, R. D., Pallada, S., Croese, J., Antušek, A., Baranowski, M., Bissell, M. L., Cerato, L., Dziubinska-Kühn, K. M., Gins, W., Gustafsson, F. P., Javaji, A., Jolivet, R. B., Kanellakopoulos, A., Karg, B., Kempka, M., Kocman, V., Kozak, M., Kulesz, K., Flores, M. Madurga, Neyens, G., Pietrzyk, R., Plavec, J., Pomorski, M., Skrzypczak, A., Wagenknecht, P., Wienholtz, F., Wolak, J., Xu, Z., Zakoucky, D., and Kowalska, M.

Subjects
Physics, QC1-999
Abstract

We determine for the first time the magnetic dipole moment of a short-lived nucleus with part-per-million (ppm) accuracy. To achieve this 2-orders-of-magnitude improvement over previous studies, we implement a number of innovations into our β-detected nuclear magnetic resonance (β-NMR) setup at ISOLDE at CERN. Using liquid samples as hosts, we obtain narrow, subkilohertz-linewidth, resonances, while a simultaneous in situ 1H NMR measurement allows us to calibrate and stabilize the magnetic field to ppm precision, thus eliminating the need for additional β-NMR reference measurements. Furthermore, we use ab initio calculations of NMR shielding constants to improve the accuracy of the reference magnetic moment, thus removing a large systematic error. We demonstrate the potential of this combined approach with the 1.1 s half-life radioactive nucleus 26Na, which is relevant for biochemical studies. Our technique can be readily extended to other isotopic chains, providing accurate magnetic moments for many short-lived nuclei. Furthermore, we discuss how our approach can open the path toward a wide range of applications of the ultrasensitive β-NMR in physics, chemistry, and biology. ispartof: Physical Review X vol:10 issue:4 status: Published online

Published
2020

24. $beta$-delayed fission of isomers in $^188Bi$

Author

Andel, B., Andreyev, A. N., Antalic, S., Al Monthery, M., Barzakh, A., Bissell, M. L., Chrysalidis, K., Cocolios, T. E., Cubiss, J. G., Day Goodacre, T., Dubray, N., Farooq-Smith, G. J., Fedorov, D. V., Fedosseev, V. N., Gaffney, L. P., Garcia Ruiz, R. F., Goriely, S., Granados, C., Harding, R. D., Heinke, R., Hilaire, S., Huyse, M., Lemaître, J.-F., Lynch, K. M., Marsh, B. A., Molkanov, P., Mosat, P., Péru, S., Raison, C., Rothe, S., Seiffert, C., Seliverstov, M. D., Sels, S., Studer, D., Sundberg, J., and Van Duppen, P.

Published
2020

25. Shape coexistence in $^187Au$ studied by laser spectroscopy

Author

Barzakh, A. E., Atanasov, D., Andreyev, A. N., Monthery, M. Al, Althubiti, N. A., Andel, B., Antalic, S., Blaum, K., Cocolios, T. E., Cubiss, J. G., Van Duppen, P., Goodacre, T. Day, de Roubin, A., Farooq-Smith, G. J., Fedorov, D. V., Fedosseev, V. N., Fink, D. A., Gaffney, L. P., Ghys, L., Harding, R. D., Huyse, M., Imai, N., Kreim, S., Lunney, D., Lynch, K. M., Manea, V., Marsh, B. A., Palenzuela, Y. Martinez, Molkanov, P. L., Neidherr, D., Rosenbusch, M., Rossel, R. E., Rothe, S., Schweikhard, L., Seliverstov, M. D., Sels, S., Van Beveren, C., Verstraelen, E., Welker, A., Wienholtz, F., Wolf, R. N., Zuber, K., Centre de Sciences Nucléaires et de Sciences de la Matière (CSNSM), and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)

Subjects
TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, Physics::Atomic and Molecular Clusters, ddc:530, Nuclear Physics - Experiment, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], Präzisionsexperimente - Abteilung Blaum, Nuclear Structure
Abstract

Physical review / C 101(6), 064321 (2020). doi:10.1103/PhysRevC.101.064321, Published by APS, Woodbury, NY

Published
2020
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26. $alpha$-decay branching ratio of $^180Pt$

Author

Cubiss, J. G., Harding, R. D., Andreyev, A. N., Althubiti, N., Andel, B., Antalic, S., Barzakh, A. E., Cocolios, T. E., Goodacre, T. Day, Farooq-Smith, G. J., Fedorov, D. V., Fedosseev, V. N., Gaffney, L. P., Ghys, L., Huyse, M., Lynch, K. M., Marsh, B. A., Palenzuela, Y. Martinez, Molkanov, P. L., Rossel, R. E., Rothe, S., Seliverstov, M. D., Sels, S., Spagnoletti, P., Van Beveren, C., Van Duppen, P., Veinhard, M., Verstraelen, E., and Zadvornaya, A.

Published
2020

27. Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of beta-Detected NMR in Physics, Chemistry, and Biology

Author

Harding, R. D., Pallada, S., Croese, J., Antusek, A., Baranowski, M., Bissell, M. L., Cerato, L., Dziubinska-Kuhn, K. M., Gins, W., Gustafsson, F. P., Javaji, A., Jolivet, R. B., Kanellakopoulos, A., Karg, B., Kempka, M., Kocman, M. Kempka V., Kozak, M., Kulesz, K., Flores, M. Madura, Neyens, G., Pietrzyk, R., Plavec, J., Pomorski, M., Skrzypczak, A., Wagenknecht, P., Wienholtz, F., Wolak, J., Xu, Z., Zakoucky, D., Kowalska, M., Harding, R. D., Pallada, S., Croese, J., Antusek, A., Baranowski, M., Bissell, M. L., Cerato, L., Dziubinska-Kuhn, K. M., Gins, W., Gustafsson, F. P., Javaji, A., Jolivet, R. B., Kanellakopoulos, A., Karg, B., Kempka, M., Kocman, M. Kempka V., Kozak, M., Kulesz, K., Flores, M. Madura, Neyens, G., Pietrzyk, R., Plavec, J., Pomorski, M., Skrzypczak, A., Wagenknecht, P., Wienholtz, F., Wolak, J., Xu, Z., Zakoucky, D., and Kowalska, M.

Abstract

We determine for the first time the magnetic dipole moment of a short-lived nucleus with part-permillion (ppm) accuracy. To achieve this 2-orders-of-magnitude improvement over previous studies, we implement a number of innovations into our beta-detected nuclear magnetic resonance (beta-NMR) setup at ISOLDE at CERN. Using liquid samples as hosts, we obtain narrow, subkilohertz-linewidth, resonances, while a simultaneous in situ H-1 NMR measurement allows us to calibrate and stabilize the magnetic field to ppm precision, thus eliminating the need for additional beta-NMR reference measurements. Furthermore, we use ab initio calculations of NMR shielding constants to improve the accuracy of the reference magnetic moment, thus removing a large systematic error. We demonstrate the potential of this combined approach with the 1.1 s half-life radioactive nucleus Na-26, which is relevant for biochemical studies. Our technique can be readily extended to other isotopic chains, providing accurate magnetic moments for many short-lived nuclei. Furthermore, we discuss how our approach can open the path toward a wide range of applications of the ultrasensitive beta-NMR in physics, chemistry, and biology.

Published
2020

28. Magnetic Moments of Short-Lived Nuclei with Part-per-Million Accuracy: Toward Novel Applications of β -Detected NMR in Physics, Chemistry, and Biology

Author

Harding, R. D., primary, Pallada, S., additional, Croese, J., additional, Antušek, A., additional, Baranowski, M., additional, Bissell, M. L., additional, Cerato, L., additional, Dziubinska-Kühn, K. M., additional, Gins, W., additional, Gustafsson, F. P., additional, Javaji, A., additional, Jolivet, R. B., additional, Kanellakopoulos, A., additional, Karg, B., additional, Kempka, M., additional, Kocman, V., additional, Kozak, M., additional, Kulesz, K., additional, Flores, M. Madurga, additional, Neyens, G., additional, Pietrzyk, R., additional, Plavec, J., additional, Pomorski, M., additional, Skrzypczak, A., additional, Wagenknecht, P., additional, Wienholtz, F., additional, Wolak, J., additional, Xu, Z., additional, Zakoucky, D., additional, and Kowalska, M., additional

Published
2020
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29. Laser-assisted decay spectroscopy and mass spectrometry of Au178

Author

Cubiss, J. G., primary, Andreyev, A. N., additional, Barzakh, A. E., additional, Manea, V., additional, Monthery, M. Al, additional, Althubiti, N. A., additional, Andel, B., additional, Antalic, S., additional, Atanasov, D., additional, Blaum, K., additional, Cocolios, T. E., additional, Goodacre, T. Day, additional, de Roubin, A., additional, Farooq-Smith, G. J., additional, Fedorov, D. V., additional, Fedosseev, V. N., additional, Fink, D. A., additional, Gaffney, L. P., additional, Ghys, L., additional, Harding, R. D., additional, Herfurth, F., additional, Huyse, M., additional, Imai, N., additional, Joss, D. T., additional, Kreim, S., additional, Lunney, D., additional, Lynch, K. M., additional, Marsh, B. A., additional, Palenzuela, Y. Martinez, additional, Molkanov, P. L., additional, Neidherr, D., additional, O'Neill, G. G., additional, Page, R. D., additional, Rosenbusch, M., additional, Rossel, R. E., additional, Rothe, S., additional, Schweikhard, L., additional, Seliverstov, M. D., additional, Sels, S., additional, Stott, A., additional, Van Beveren, C., additional, Van Duppen, P., additional, Verstraelen, E., additional, Welker, A., additional, Wienholtz, F., additional, Wolf, R. N., additional, and Zuber, K., additional

Published
2020
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30. Laser-assisted decay spectroscopy for the ground states of Au180,182

Author

Harding, R. D., primary, Andreyev, A. N., additional, Barzakh, A. E., additional, Atanasov, D., additional, Cubiss, J. G., additional, Van Duppen, P., additional, Al Monthery, M., additional, Althubiti, N. A., additional, Andel, B., additional, Antalic, S., additional, Blaum, K., additional, Cocolios, T. E., additional, Day Goodacre, T., additional, de Roubin, A., additional, Farooq-Smith, G. J., additional, Fedorov, D. V., additional, Fedosseev, V. N., additional, Fink, D. A., additional, Gaffney, L. P., additional, Ghys, L., additional, Joss, D. T., additional, Herfurth, F., additional, Huyse, M., additional, Imai, N., additional, Kreim, S., additional, Lunney, D., additional, Lynch, K. M., additional, Manea, V., additional, Marsh, B. A., additional, Martinez Palenzuela, Y., additional, Molkanov, P. L., additional, Neidherr, D., additional, Page, R. D., additional, Pastore, A., additional, Rosenbusch, M., additional, Rossel, R. E., additional, Rothe, S., additional, Schweikhard, L., additional, Seliverstov, M. D., additional, Sels, S., additional, Van Beveren, C., additional, Verstraelen, E., additional, Welker, A., additional, Wienholtz, F., additional, Wolf, R. N., additional, and Zuber, K., additional

Published
2020
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31. β -delayed fission of isomers in Bi188

Author

Andel, B., primary, Andreyev, A. N., additional, Antalic, S., additional, Al Monthery, M., additional, Barzakh, A., additional, Bissell, M. L., additional, Chrysalidis, K., additional, Cocolios, T. E., additional, Cubiss, J. G., additional, Day Goodacre, T., additional, Dubray, N., additional, Farooq-Smith, G. J., additional, Fedorov, D. V., additional, Fedosseev, V. N., additional, Gaffney, L. P., additional, Garcia Ruiz, R. F., additional, Goriely, S., additional, Granados, C., additional, Harding, R. D., additional, Heinke, R., additional, Hilaire, S., additional, Huyse, M., additional, Lemaître, J.-F., additional, Lynch, K. M., additional, Marsh, B. A., additional, Molkanov, P., additional, Mosat, P., additional, Péru, S., additional, Raison, C., additional, Rothe, S., additional, Seiffert, C., additional, Seliverstov, M. D., additional, Sels, S., additional, Studer, D., additional, Sundberg, J., additional, and Van Duppen, P., additional

Published
2020
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32. Shape coexistence in Au187 studied by laser spectroscopy

Author

Barzakh, A. E., primary, Atanasov, D., additional, Andreyev, A. N., additional, Monthery, M. Al, additional, Althubiti, N. A., additional, Andel, B., additional, Antalic, S., additional, Blaum, K., additional, Cocolios, T. E., additional, Cubiss, J. G., additional, Van Duppen, P., additional, Goodacre, T. Day, additional, de Roubin, A., additional, Farooq-Smith, G. J., additional, Fedorov, D. V., additional, Fedosseev, V. N., additional, Fink, D. A., additional, Gaffney, L. P., additional, Ghys, L., additional, Harding, R. D., additional, Huyse, M., additional, Imai, N., additional, Kreim, S., additional, Lunney, D., additional, Lynch, K. M., additional, Manea, V., additional, Marsh, B. A., additional, Palenzuela, Y. Martinez, additional, Molkanov, P. L., additional, Neidherr, D., additional, Rosenbusch, M., additional, Rossel, R. E., additional, Rothe, S., additional, Schweikhard, L., additional, Seliverstov, M. D., additional, Sels, S., additional, Van Beveren, C., additional, Verstraelen, E., additional, Welker, A., additional, Wienholtz, F., additional, Wolf, R. N., additional, and Zuber, K., additional

Published
2020
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33. Hyperfine anomaly in gold and magnetic moments of Iπ=11/2− gold isomers

Author

Barzakh, A. E., primary, Atanasov, D., additional, Andreyev, A. N., additional, Al Monthery, M., additional, Althubiti, N. A., additional, Andel, B., additional, Antalic, S., additional, Blaum, K., additional, Cocolios, T. E., additional, Cubiss, J. G., additional, Van Duppen, P., additional, Goodacre, T. Day, additional, de Roubin, A., additional, Demidov, Yu. A., additional, Farooq-Smith, G. J., additional, Fedorov, D. V., additional, Fedosseev, V. N., additional, Fink, D. A., additional, Gaffney, L. P., additional, Ghys, L., additional, Harding, R. D., additional, Joss, D. T., additional, Herfurth, F., additional, Huyse, M., additional, Imai, N., additional, Kozlov, M. G., additional, Kreim, S., additional, Lunney, D., additional, Lynch, K. M., additional, Manea, V., additional, Marsh, B. A., additional, Martinez Palenzuela, Y., additional, Molkanov, P. L., additional, Neidherr, D., additional, Page, R. D., additional, Rosenbusch, M., additional, Rossel, R. E., additional, Rothe, S., additional, Schweikhard, L., additional, Seliverstov, M. D., additional, Sels, S., additional, Van Beveren, C., additional, Verstraelen, E., additional, Welker, A., additional, Wienholtz, F., additional, Wolf, R. N., additional, and Zuber, K., additional

Published
2020
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34. α -decay branching ratio of Pt180

Author

Cubiss, J. G., primary, Harding, R. D., additional, Andreyev, A. N., additional, Althubiti, N., additional, Andel, B., additional, Antalic, S., additional, Barzakh, A. E., additional, Cocolios, T. E., additional, Goodacre, T. Day, additional, Farooq-Smith, G. J., additional, Fedorov, D. V., additional, Fedosseev, V. N., additional, Gaffney, L. P., additional, Ghys, L., additional, Huyse, M., additional, Lynch, K. M., additional, Marsh, B. A., additional, Palenzuela, Y. Martinez, additional, Molkanov, P. L., additional, Rossel, R. E., additional, Rothe, S., additional, Seliverstov, M. D., additional, Sels, S., additional, Spagnoletti, P., additional, Van Beveren, C., additional, Van Duppen, P., additional, Veinhard, M., additional, Verstraelen, E., additional, and Zadvornaya, A., additional

Published
2020
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42. New laser polarization line at the ISOLDE facility

Author

Kowalska, M., Aschenbrenner, P., Baranowski, M, Bissell, Mark L, Gins, W., Harding, R. D., Heylen, H., Neyens, G., Pallada, Stavroula, Severijns, N., Velten, Ph, Walczak, M., Wienholtz, F., Xu, Z. Y., Yang, X. F., Zakoucky, D., Kowalska, M., Aschenbrenner, P., Baranowski, M, Bissell, Mark L, Gins, W., Harding, R. D., Heylen, H., Neyens, G., Pallada, Stavroula, Severijns, N., Velten, Ph, Walczak, M., Wienholtz, F., Xu, Z. Y., Yang, X. F., and Zakoucky, D.

Published
2017

44. New laser polarization line at the ISOLDE facility

Author

Kowalska, M, primary, Aschenbrenner, P, additional, Baranowski, M, additional, Bissell, M L, additional, Gins, W, additional, Harding, R D, additional, Heylen, H, additional, Neyens, G, additional, Pallada, S, additional, Severijns, N, additional, Velten, Ph, additional, Walczak, M, additional, Wienholtz, F, additional, Xu, Z Y, additional, Yang, X F, additional, and Zakoucky, D, additional

Published
2017
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45. γ-softBa146and the role of nonaxial shapes atN≈90

Author

Mitchell, A. J., primary, Lister, C. J., additional, McCutchan, E. A., additional, Albers, M., additional, Ayangeakaa, A. D., additional, Bertone, P. F., additional, Carpenter, M. P., additional, Chiara, C. J., additional, Chowdhury, P., additional, Clark, J. A., additional, Copp, P., additional, David, H. M., additional, Deo, A. Y., additional, DiGiovine, B., additional, D'Olympia, N., additional, Dungan, R., additional, Harding, R. D., additional, Harker, J., additional, Hota, S. S., additional, Janssens, R. V. F., additional, Kondev, F. G., additional, Liu, S. H., additional, Ramayya, A. V., additional, Rissanen, J., additional, Savard, G., additional, Seweryniak, D., additional, Shearman, R., additional, Sonzogni, A. A., additional, Tabor, S. L., additional, Walters, W. B., additional, Wang, E., additional, and Zhu, S., additional

Published
2016
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47. Co‐operative cross‐platform courseware development

Author

Harding, R. D., Lay, S. W., and Moule, H.

Subjects
LB Theory and practice of education, ComputingMilieux_COMPUTERSANDEDUCATION, LC1022 - 1022.25 Computer-assisted Education
Abstract

The UKMCC (UK Mathematics Courseware Consortium) is a Consortium funded under TLTP (Training and Learning Technology Programme) to produce courseware for service mathematics teaching, using the SEFI (Société Européenne pour la Formation des Ingénieurs) syllabus. There are agreed courseware design guidelines and a simple courseware management system which allows cross‐referencing. Courseware is divided into modules, with an author as implementer for each. On any one hardware platform, a variety of authoring languages is possible. Across hardware platforms, the design guidelines ensure that conversion is possible, and will preserve look and feel. We argue here that these arrangements provide a basis for continued co‐operation between authors and future development as the technology changes.

Published
1996

50. Exogenous substrate preference of the post-ischaemic myocardium.

Author

MICKLE, D A G, DEL NIDO, P J, WILSON, G J, HARDING, R D, and ROMASCHIN, A D

Abstract

Myocardial exogenous substrate preference was studied under conditions of increased plasma lactate concentration before and after a severe (halving of tissue ATP concentration, sixfold increase in tissue lactate concentration) but reversible (<1% necrosis on reperfusion) global ischaemic stress produced by continuous hypothermic electromechanical arrest of the heart of four hours' duration by aortic cross clamping and multidose potassium cardioplegia. Fatty acid oxidation was studied using l-l4C-palmitate under steady state conditions and under similar isovolumic fixed pressure conditions with the heart at a constant rate using a left ventricular intracavitary balloon. Exogenous free fatty acid oxidation during the pre-ischaemic period with an increased lactate concentration (3.9-5.8 mmol·litre−1) was 0.62(0.21) μmol·min−1·100 g−1 (mean (SEM)). This represented a mean of 32% of the total carbon dioxide produced in contrast to a post-ischaemia free fatty oxidation rate of 2.67(0.87) μmol·min−1·100 g−1, in the presence of even further increased plasma lactate concentrations (8.47-11.17 mmol·litre−1), representing a mean of 82% of the total carbon dioxide output. These data suggest that the substrate preference of the myocardium, under conditions of increased plasma lactate concentration, shifts to greater oxidation of exogenous free fatty acids after ischaemic stress. [ABSTRACT FROM PUBLISHER]

Published
1986

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