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271 results on '"Wright, S. C."'

1. Reconciling mean-squared radius differences in the silver chain through improved measurement and {\it ab initio} calculations

Author

Ohayon, B., Padilla-Castillo, J. E., Wright, S. C., Meijer, G., and Sahoo, B. K.

Subjects
Physics - Atomic Physics, Physics - Computational Physics
Abstract

Nuclear charge radius differences in the silver isotopic chain have been reported through different combinations of experiment and theory, exhibiting a tension of two combined standard errors. This study investigates this issue by combining high-accuracy calculations for six low-lying states of atomic silver with an improved measurement of the $5s ^2S_{1/2} - 5p ^2P_{3/2}$ transition optical isotope shift. Our calculations predict measured electronic transition energies in Ag I at the 0.3\% level, the highest accuracy achieved in this system so far. We calculate electronic isotope shift factors by employing analytical response relativistic coupled-cluster theory, and find that a consistent charge radius difference between $^{107,109}$Ag is returned when combining our calculations with the available optical isotope shift measurements. We therefore recommend an improved value for the mean-squared charge radius difference between $^{107}$Ag and $^{109}$Ag as $0.207(3)[4]$ fm$^2$, within one combined error from the value derived from muonic Ag experiments, and an updated set of charge radii differences across the isotopic chain.

Published
2024

2. Systematic errors arising from polarization imperfections in measurements of the electron's electric dipole moment

Author

Ho, C. J., Wright, S. C., Sauer, B. E., and Tarbutt, M. R.

Subjects
Physics - Atomic Physics
Abstract

The electron's electric dipole moment (eEDM) can be determined by polarizing the spin of an atom or a molecule and then measuring the spin precession frequency in an applied electric field. Radiation is used to polarize the spin and then analyze the precession angle, and the measurement is often sensitive to the polarization of this radiation. We show how systematic errors can arise when both the polarization of the radiation and the magnitude of the electric field are imperfectly controlled. We derive approximate analytical expressions for these errors, confirm their accuracy numerically, and show how they can be corrected empirically. We consider spin manipulation using single-photon pulses, Raman pulses, and Stimulated Raman Adiabatic Passage (STIRAP), and show that STIRAP provides better immunity to these systematic errors. An experimental study of these errors partly supports our findings but also reveals another potential error that is not captured by this analysis., Comment: 9 pages, 10 figures. Added new section presenting an experimental study of the effects described in the paper

Published
2023

3. Isotope Shifts in Cadmium as a Sensitive Probe for Physics Beyond the Standard Model

Author

Ohayon, B., Hofsäss, S., Padilla-Castillo, J. E., Wright, S. C., Meijer, G., Truppe, S., Gibble, K., and Sahoo, B. K.

Subjects
Physics - Atomic Physics, Nuclear Experiment
Abstract

Isotope shifts (ISs) in atomic energy levels are sensitive probes of nuclear structure and new physics beyond the Standard Model. We present an analysis of the ISs of the cadmium atom (Cd I) and singly charged cadmium ion (Cd II). ISs of the 229 nm, 326 nm, 361 nm and 480 nm lines of Cd I are measured with a variety of techniques; buffer-gas-cooled beam spectroscopy, capturing atoms in a magneto-optic-trap, and optical pumping. IS constants for the D1 and D2 lines of Cd II are calculated with high accuracy by employing analytical response relativistic coupled-cluster theory in the singles, doubles and triples approximations. Combining the calculations for Cd II with experiments, we infer IS constants for all low-lying transitions in Cd I. We benchmark these constants as calculated via different many-body methods. Our calculations for Cd II enable nuclear charge radii of Cd isotopes to be extracted with unprecedented accuracy. The combination of our precise calculations and measurements shows that King Plots for Cd I can improve the state-of-theart sensitivity to a new heavy boson by up to two orders of magnitude.

Published
2022
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4. The chemistry of AlF and CaF production in buffer gas sources

Author

Liu, X., Wang, W., Wright, S. C., Doppelbauer, M., Meijer, G., Truppe, S., and Pérez-Ríos, J.

Subjects
Physics - Computational Physics, Physics - Chemical Physics
Abstract

In this work, we explore the role of chemical reactions on the properties of buffer gas-cooled molecular beams. In particular, we focus on scenarios relevant to the formation of AlF and CaF via chemical reactions between the Ca and Al atoms ablated from a solid target in an atmosphere of a fluorine-containing gas, in this case, SF6 and NF3. Reactions are studied following an ab initio molecular dynamics approach, and the results are rationalized following a tree-shaped reaction model based on Bayesian inference. We find that NF3 reacts more efficiently with hot metal atoms to form monofluoride molecules than SF6. In addition, when using NF3, the reaction products have lower kinetic energy, requiring fewer collisions to thermalize with the cryogenic helium. Furthermore, we find that the reaction probability for AlF formation is much higher than for CaF across a broad range of temperatures.

Published
2022
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5. Hyperfine resolved optical spectroscopy of the A$^2\Pi \leftarrow $X$^2\Sigma^+$ transition in MgF

Author

Doppelbauer, M., Wright, S. C., Hofsäss, S., Sartakov, B. G., Meijer, G., and Truppe, S.

Subjects
Physics - Atomic Physics, Physics - Chemical Physics
Abstract

We report on hyperfine-resolved laser spectroscopy of the A$^2\Pi \leftarrow $X$^2\Sigma^+$ transition of MgF, relevant for laser cooling. We recorded 25 rotational transitions with an absolute accuracy of better than 20 MHz, assigned 56 hyperfine lines and determined precise rotational, fine and hyperfine structure parameters for the A$^2\Pi$ state. The radiative lifetime of the A$^2\Pi$ state was determined to be 7.2(3) ns, in good agreement with \textit{ab initio} calculations. The transition isotope shift between bosonic isotopologues of the molecule is recorded and compared to predicted values within the Born-Oppenheimer approximation. We measured the Stark effect of selected rotational lines of the A$^2\Pi \leftarrow $X$^2\Sigma^+$ transition by applying electric fields of up to 10.6 kV cm$^{-1}$ and determined the permanent electric dipole moments of $^{24}$MgF in its ground X$^2\Sigma^+$ and first excited A$^2\Pi$ states to be $\mu_X=$2.88(20) D and $\mu_A=$3.20(22) D, respectively. Based on these measurements, we caution for potential losses from the optical cycling transition, due to electric field induced parity mixing in the excited state. In order to scatter $10^4$ photons, the electric field must be controlled to below 1 V cm$^{-1}$., Comment: 11 pages, 7 figures, submitted to Journal of Chemical Physics

Published
2021
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6. New techniques for a measurement of the electron's electric dipole moment

Author

Ho, C. J., Devlin, J. A., Rabey, I. M., Yzombard, P., Lim, J., Wright, S. C., Fitch, N. J., Hinds, E. A., Tarbutt, M. R., and Sauer, B. E.

Subjects
Physics - Atomic Physics
Abstract

The electric dipole moment of the electron (eEDM) can be measured with high precision using heavy polar molecules. In this paper, we report on a series of new techniques that have improved the statistical sensitivity of the YbF eEDM experiment. We increase the number of molecules participating in the experiment by an order of magnitude using a carefully designed optical pumping scheme. We also increase the detection efficiency of these molecules by another order of magnitude using an optical cycling scheme. In addition, we show how to destabilise dark states and reduce backgrounds that otherwise limit the efficiency of these techniques. Together, these improvements allow us to demonstrate a statistical sensitivity of $1.8 \times 10^{-28}$ e cm after one day of measurement, which is 1.2 times the shot-noise limit. The techniques presented here are applicable to other high-precision measurements using molecules., Comment: 22 pages, 11 figures

Published
2020
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7. Microwave trap for atoms and molecules

Author

Wright, S. C., Wall, T. E., and Tarbutt, M. R.

Subjects
Physics - Atomic Physics
Abstract

We demonstrate a trap that confines polarizable particles around the antinode of a standing-wave microwave field. The trap relies only on the polarizability of the particles far from any resonances, so can trap a wide variety of atoms and molecules in a wide range of internal states, including the ground state. The trap has a volume of about 10 cm$^3$, and a depth approaching 1 K for many polar molecules. We measure the trap properties using $^{7}$Li atoms, showing that when the input microwave power is 610 W, the atoms remain trapped with a $1/e$ lifetime of 1.76(12) s, oscillating with an axial frequency of 28.55(5) Hz and a radial frequency of 8.81(8) Hz. The trap could be loaded with slow molecules from a range of available sources, and is particularly well suited to sympathetic cooling and evaporative cooling of molecules., Comment: 7 pages, 6 figures. Modified figure 5, added figure 6, added further discussion of applications

Published
2019
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8. New Limit for the Family-Number Non-conserving Decay mu+ to e+_gamma

Author

MEGA Collaboration, Brooks, M. L., Chen, Y. K., Cooper, M. D., Cooper, P. S., Dzemidzic, M., Empl, A., Gagliardi, C. A., Hogan, G. E., Hughes, E. B., Hungerford, E. V., Jui, C. C. H., Knott, J. E., Koetke, D. D., Lan, M. A. Kroupa K. A., Manweiler, R., Mayes, B. W., Mischke, R. E., Piilonen, L. E., Stanislaus, T. D. S., Stantz, K. M., Szymanski, J. J., Tribble, R. E., Tu, X. L., Van Ausdeln, L. A., von Witsch, W. H., Wright, S. C., and Ziock, K. O. H.

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

An experiment has been performed to search for the muon- and electron-number non-conserving decay mu+ to e+_gamma. The upper limit for the branching ratio to be GAMMA(mu+ to e+_gamma)/GAMMA(mu+ to e+_nu_nubar) < 1.2e-11 with 90% confidence., Comment: 4 pages, 3 figures, submitted to Phys. Rev. Lett

Published
1999
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10. Hyperfine-resolved optical spectroscopy of the A2Π ← X2Σ+ transition in MgF.

Author

Doppelbauer, M., Wright, S. C., Hofsäss, S., Sartakov, B. G., Meijer, G., and Truppe, S.

Subjects
HYPERFINE structure, OPTICAL spectroscopy, ELECTRIC dipole moments, ISOTOPE shift, STARK effect, BORN-Oppenheimer approximation
Abstract

We report on hyperfine-resolved laser spectroscopy of the A2Π ← X2Σ+ transition of magnesium monofluoride (MgF), relevant for laser cooling. We recorded 25 rotational transitions with an absolute accuracy of better than 20 MHz, assigned 56 hyperfine lines, and determined precise rotational, fine, and hyperfine structure parameters for the A2Π state. The radiative lifetime of the A2Π state was determined to be 7.2(3) ns, in good agreement with ab initio calculations. The transition isotope shift between bosonic isotopologues of the molecule is recorded and compared to predicted values within the Born–Oppenheimer approximation. We measured the Stark effect of selected rotational lines of the A2Π ← X2Σ+ transition by applying electric fields of up to 10.6 kV cm−1 and determined the permanent electric dipole moments of 24MgF in its ground X2Σ+ and first excited A2Π states to be μX = 2.88(20) D and μA = 3.20(22) D, respectively. Based on these measurements, we caution for potential losses from the optical cycling transition due to electric field induced parity mixing in the excited state. In order to scatter 104 photons, the electric field must be controlled to below 1 V cm−1. [ABSTRACT FROM AUTHOR]

Published
2022
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12. First Year Baccalaureate Nursing Students: Reasons for Drop-Out?

Author

Wright, S. C. D. and Maree, J. E.

Abstract

Improving throughput in the B. Tech. Nursing Sciences programme is a complex issue as not only the theoretical but also the practical component and undefined inner strengths of the student influence success. The purpose of this article is to report factors in the prospective students' social background, their perceptions of nursing and nurses and their motivation that could influence their academic success in the first year of study. The research design was contextual, qualitative and exploratory. Triangulation of data gathering methods was obtained by using two instruments, a targeted selection interview and a written instrument. Data analysis was done through Tesch's approach. The results indicate that prospective students perceive a nurse to be functioning from the affective domain, and that they judge themselves to be strong in the affective domain. The cognitive domain was rarely mentioned (7%). Due to the myths regarding the nursing profession, the profession continues to attract students who are interested in the myth and not the reality. (Contains 2 tables and 4 figures.)

Published
2007

13. 'In the Local Context': Singaporean Challenges to Teaching Games on Practicum

Author

McNeill, M. C., Fry, J. M., Wright, S. C., Tan, W. K. C., Tan, K. S. S., and Schempp, P. G.

Abstract

This is an investigation of "situated learning" among Singaporean physical education student teachers (STs) (n = 11) who used a games concept approach (GCA) on their practicum in primary schools. Introduced to the physical education curriculum as part of a revised, mandated national syllabus, the GCA was reportedly having little impact "in the local context" where PE had marginal status. Investigated were the extent to which the student teachers were able to use the GCA and their understanding of its challenges and facilitators. The practicum as an active apprenticeship in building "communities of [GCA] practice" was central to the research methodology and findings. Data collected through interview (formative and summative), journals and field observations as well as a post-practicum group discussion were used to capture the background experiences, instructional practices and evaluation criteria used by the STs. The negotiated meanings of the GCA as structure, as product and as process are discussed in relation to issues encountered in its use (dealing with situational constraints, planning, questioning and sustaining pupil interest). Also discussed are STs' recommendations for GCA systemic implementation. Suggestions have been made for planning, teaching and structuring the school learning environment as well as for PETE programmes in order to constitute the GCA as effective in primary schools. (Contains 1 table and 5 notes.)

Published
2004
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16. Hyperfine resolved optical spectroscopy of the A$^2Π\leftarrow $X$^2Σ^+$ transition in MgF

Author

Doppelbauer, M., Wright, S. C., Hofsäss, S., Sartakov, B. G., Meijer, G., and Truppe, S.

Subjects
Chemical Physics (physics.chem-ph), Atomic Physics (physics.atom-ph), FOS: Physical sciences, Physics::Atomic Physics
Abstract

We report on hyperfine-resolved laser spectroscopy of the A$^2Π\leftarrow $X$^2Σ^+$ transition of MgF, relevant for laser cooling. We recorded 25 rotational transitions with an absolute accuracy of better than 20 MHz, assigned 56 hyperfine lines and determined precise rotational, fine and hyperfine structure parameters for the A$^2Π$ state. The radiative lifetime of the A$^2Π$ state was determined to be 7.2(3) ns, in good agreement with \textit{ab initio} calculations. The transition isotope shift between bosonic isotopologues of the molecule is recorded and compared to predicted values within the Born-Oppenheimer approximation. We measured the Stark effect of selected rotational lines of the A$^2Π\leftarrow $X$^2Σ^+$ transition by applying electric fields of up to 10.6 kV cm$^{-1}$ and determined the permanent electric dipole moments of $^{24}$MgF in its ground X$^2Σ^+$ and first excited A$^2Π$ states to be $μ_X=$2.88(20) D and $μ_A=$3.20(22) D, respectively. Based on these measurements, we caution for potential losses from the optical cycling transition, due to electric field induced parity mixing in the excited state. In order to scatter $10^4$ photons, the electric field must be controlled to below 1 V cm$^{-1}$., 11 pages, 7 figures, submitted to Journal of Chemical Physics

Published
2021
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17. Optical cycling of AlF molecules

Author

Hofsäss, S, primary, Doppelbauer, M, additional, Wright, S C, additional, Kray, S, additional, Sartakov, B G, additional, Pérez-Ríos, J, additional, Meijer, G, additional, and Truppe, S, additional

Published
2021
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20. Irish thoracic society: Proceedings of Meeting held November, 1691 in Belfast

Author

Smyth, E. T., Wright, S. C., Sinnamon, D. G., Evans, A. E., MacMahon, J., Loughrey, C., Riley, M., Varghese, G., Buick, J. B., Lowry, R. C., Costello, R., McNicholas, W. T., Quigley, C., Long, M., Conlon, P., Walker, F., Fitzgerald, P., O’Neill, S. J., O’Connor, C. M., Rook, G., FitzGerald, M. X., Subbareddy, K., Luke, D., McGovern, E., Karim, A. F., Luke, D. A., Hogan, F. P., O’Sullivan, M. P., O’Sullivan, M., Grant, W., Walsh, M., Reynolds, S. P., Phillips, A., Richards, R., Jones, K. P., Cunnane, G., Kelly, P., Corcoran, P., Clancy, L., Lyons, D. J., Keating, J., Mulcahy, F., Hartley, P., Goodman, P. G., Houlihan, K. P., Singh, H. P., Aherne, T., Attwood, S. E. A., Wood, A. E., Sweeney, J. P., Hegarty, V., Scott, T., Keane, C., Walsh, J. B., Coakley, D., Donnelly, S., Robinson, C., Zamani, A., McGregor, I., Gordon, M., Steedman, D., Pollock, A., Haslett, C., Cordon, S. M., Elborn, J. S., Rayner, R. J., Hiller, E. J., Shale, D. J., Sinclair, H., Allwright, S., Prichard, J., Macleod, D., Vanderputten, W., O’Briann, D. S., Prichard, J. S., Khan, A., Power, C. K., Morris, A. M., Sreenan, S. K., Burke, C. M., Power, C., Byrne, P., Jarrett, S. J., Hogan, T., Hurson, B., Poulter, L., Clarkson, K., O’Connell, F., Norris, A., Coffey, F., Sreenan, S., Burke, C., MacManus, K., Ritchie, A., Gibbons, J., Stevenson, M., McAuley, W. J., McGuigan, J., Gibbons, J. R., Whiteside, M., Tolan, M., Danton, M., Tolan, M., McGuigan, J. A., Gibbons, J. R. P., Clements, W. B., Kinley, J. K., Johnston, C. F., Gibbons, T. R. P., Buchanan, K. D., Ogunnaike, H. O., Al-Jilaihawi, A. N., Prakash, D., Ghareeb, E. M., Ritchie, A. J., Cosgrove, A. P., O’Donnell, A. F., Neligan, M. C., O’Connor, B. J., Barnes, P. J., O’Connor, B., Donaghy, D., Mulloy, E., McNicholas, W., Northridge, D., Henderson, E., Stanford, C. F., Nichols, P., Dargie, H., Stewart, E. J., Cinnamond, M. J., Nicholls, D. P., Moore, H., Finnegan, P., Gibson, G., Abernethy, E., Plant, L., Bredin, C. P., Murray, J. G., Breathnach, E., Eustace, S., Phelan, N., and Ennis, J. T.

Published
1992
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26. New Results for Rare Muon Decays

Author

Mischke, R. E., Bolton, R. D., Bowman, J. D., Cooper, M. D., Frank, J. S., Hallin, A. L., Heusi, P. A., Hoffman, C. M., Hogan, G. E., Mariam, F. G., Matis, H. S., Nagle, D. E., Piilonen, L. E., Sandberg, V. D., Sanders, G. H., Sennhauser, U., Werheck, R., Williams, R. A., Wilson, S. L., Hofstadter, R., Hughes, E. B., Ritter, M. W., Grosnick, D., Wright, S. C., Highland, V. L., McDonough, J., and Klapdor, Hans Volker, editor

Published
1986
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27. Royal Academy of Medicine in Ireland Proceedings of the Irish Thorac Society — Annual Scientific Meeting 13/14 November 1987

Author

Veale, D., Summerling, M. D., Gibson, G. J., Gilmartin J. J., Wadhera, E., Galvin, I. F., O’Kane, H. O. J., Buckels, N. J., Gibbons, J. R. P., Mulholland, H. C., Cinnamond, M. J., Kelly, P., Fallouh, M., O’Brien, A., Clancy, L., McManus, K. G., Gibbons, J. R. P., Stevenson, H. M., Barton, J., Kenny, A. ntoinette, Keon, D., Horgan, J., O’Neill, S., Kenny, Antoinette, Barton, J., Maguire, Sabina, Bouchier-Hayes, D., O’Neill, S., Wright, S. C., Varghese, G., McNicholas, W. T., McNally, E., Bourke, S., Black, A. J., Wilson, T. S., Lane, G., Kelly, P., Brangan, E., Healy, T. M., Clancy, L., Howell, F., O’Laoide, R., Kelly, P., Power, J., Clancy, L., Pender, D., Moghissi, K., Goebells, P., Dench, M., Jessop, T., Veale D., Gilmartin J. J., Keavey P. M., Cooper B. C., Morritt C. N., Gibson C. J., Swanwick, G., Corcoran, P., Clancy, L., Kelly, P., O’Malley, G., Bredin, C. P., Varghese, G., McMahon, J., Stinson, J., Kelly, P., Howell, F., Clancy, L., Stenson, S. C., Kelly, C. A., Turner, P., Walters, E. H., Hendrick, D. J., Ward, K., Coffey, M., FitzGerald, M. X., Barsum A. Wagdy, Drury, R., Cullina, M., Greally, J., Finnegan, P., Malone, H. E, Prichard, J. S., Wright, S. C., Evans, A. E., McMahon, J., Sinnamon, D. G., Wright, S. C., Evans, A. E., Sinnamin, D. G., McMahon, J., Chadwick, G. A., Butterfield, M., McNicholas, W. T., Kavanagh, B., McNicholas, W. T., Gleadhill, I., Schwartz, A., Smith, P., Jamison, J. P., Glover, P., O’Neill, S., Lesperance, Esther, O’Connor, C. M., Ward, K., Power, C., and Fitzpatrick, M. X.

Published
1988
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28. What do national flags stand for? : An exploration of associations across 11 countries

Author

Becker, J. C., Butz, D. A., Sibley, C. G., Barlow, F. K., Bitacola, L. M., Christ, O., Khan, Sammyh, Leong, C. -H, Pehrson, S., Srinivasan, N., Sulz, A., Tausch, N., Urbanska, K., Wright, S. C., Becker, J. C., Butz, D. A., Sibley, C. G., Barlow, F. K., Bitacola, L. M., Christ, O., Khan, Sammyh, Leong, C. -H, Pehrson, S., Srinivasan, N., Sulz, A., Tausch, N., Urbanska, K., and Wright, S. C.

Abstract

We examined the concepts and emotions people associate with their national flag, and how these associations are related to nationalism and patriotism across 11 countries. Factor analyses indicated that the structures of associations differed across countries in ways that reflect their idiosyncratic historical developments. Positive emotions and egalitarian concepts were associated with national flags across countries. However, notable differences between countries were found due to historical politics. In societies known for being peaceful and open-minded (e.g., Canada, Scotland), egalitarianism was separable from honor-related concepts and associated with the flag; in countries that were currently involved in struggles for independence (e.g., Scotland) and countries with an imperialist past (the United Kingdom), the flag was strongly associated with power-related concepts; in countries with a negative past (e.g., Germany), the primary association was sports; in countries with disruption due to separatist or extremist movements (e.g., Northern Ireland, Turkey), associations referring to aggression were not fully rejected; in collectivist societies (India, Singapore), obedience was linked to positive associations and strongly associated with the flag. In addition, the more strongly individuals endorsed nationalism and patriotism, the more they associated positive emotions and egalitarian concepts with their flag. Implications of these findings are discussed.

Published
2017
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29. (How) does positive and negative extended cross‐group contact predict direct cross‐group contact and intergroup attitudes?

Author

Mazziotta, A., Rohmann, A., Wright, S. C., De Tezanos‐Pinto, P., and Lutterbach, S.

Abstract

Knowing that fellow ingroup members have cross‐group contact can affect how people think, feel, and behave towards an out‐group. Previous research on extended contact focused almost exclusively on positive cross‐group interactions, neglecting the fact tha

Published
2015

30. Irish Thoracic Society Annual Scientific Meeting held in the Regional Hospital, Cork, on 28th/29th November, 1986

Author

McCarthy, G., Fitzgerald, M. X., Keelan, P., Kerins, D., Foley, B. V., Bredin, C. P., Ward, K., Odium, C., O’Connor, C., van Breda, A., O’Connor, C. M., Power, C., Keogh, B. A., O’Brien, T., Kelly, P., Daly, P., Clancy, L., Power, J., Catterall, J., Thynne, C., Leitch, A. G., Al-Delame, Taha Y., McLoughlin, Ray, Mulcahy, Roy, Kent, Patrick, Aherne, T., MacDonald, N. J., Lavelle, P., Gallocher, W., Callaghan, B., Teo, C., Lane, B., Gibbons, S., Whittle, M., Hitchcock, H., Cryan, E., Howell, F., Power, B., McNicholas, M., Lindsay, P. J., Murphy, A., Watson, P., Byrne, C., Denham, F., Healy, T., Ryan, C. F. P., Brady, H. R., Tormey, W., O’Neill, S., Brady, H. B., Ryan, M. P., Wright, S. C., Evans, A. E., Sinnamon, D., MacMahon, J., McNally, E., Bourke, S., NcNicholas, W. T., Chadwick, G. A., Crowley, P., O’Regan, R., and McNicholas, W. T.

Published
1987
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31. S-phase-specific expression of the Mad3 gene in proliferating and differentiating cells

Author

Fox, E J and Wright, S C

Subjects
Gene Expression, Cell Differentiation, 3T3 Cells, S Phase, DNA-Binding Proteins, Mice, NF-KappaB Inhibitor alpha, Tumor Cells, Cultured, Animals, Humans, I-kappa B Proteins, RNA, Messenger, Cell Division, Research Article, HeLa Cells
Abstract

The Myc/Max/Mad transcription factor network plays a central role in the control of cellular proliferation, differentiation and apoptosis. In order to elucidate the biological function of Mad3, we have analysed the precise temporal patterns of Mad3 mRNA expression during the cell cycle and differentiation in cultured cells. We show that Mad3 is induced at the G1/S transition in proliferating cells; expression persists throughout S-phase, and then declines as cells pass through G2 and mitosis. The expression pattern of Mad3 is coincident with that of Cdc2 throughout the cell cycle. In contrast, the expression of Mad3 during differentiation of cultured mouse erythroleukemia cells shows two transient peaks of induction. The first of these occurs at the onset of differentiation, and does not correlate with the S-phase of the cell cycle, whereas the second is coincident with the S-phase burst that precedes the terminal stages of differentiation. Our results therefore suggest that Mad3 serves a cell-cycle-related function in both proliferating and differentiating cells, and that it may also have a distinct role at various stages of differentiation.

Published
2001

32. New Limit for the Lepton-Family-Number Nonconserving Decay μ+→e+γ

Author

Brooks, M. L., Chen, Y. K., Yk, Chen, Cooper, M. D., Cooper, P. S., Dzemidzic, M., Empl, A., Ca, Gagliardi, Gagliardi, C. A., Hogan, G. E., Hughes, E. B., Hungerford, E. V., Iii, E. V. Hungerford, Jui, C. C. H., Knott, J. E., Koetke, D. D., Kroupa, M. A., Ma, Kroupa, Ka, Lan, Lan, K. A., Manweiler, R., Mayes, B. W., Mischke, R. E., Ii, B. W. Mayes, Piilonen, L. E., Stanislaus, T. D. S., Stantz, K. M., Szymanski, J. J., Tribble, R. E., Tu, X. L., Van Ausdeln, L. A., von Witsch, W. H., Wright, S. C., and Ziock, K. O. H.

Abstract

An experiment has been performed to search for the muon- and electron-number nonconserving decay μ+→e+γ. The upper limit for the branching ratio is found to be Γ(μ+→e+γ)/ Γ(μ+→e+νν̅ )

Published
1999

33. Search for the lepton-family-number nonconserving decay μ +→e +γ

Author

Ahmed, M., Amann, J. F., Barlow, D., Black, K., Bolton, R. D., Brooks, M. L., Carius, Staffan, Chen, Y. K., Chernyshev, A., Concannon, H. M., Cooper, M. D., Cooper, P. S., Crocker, J., Dittmann, J. R., Dzemidzic, M., Empl, A., Fisk, R. J., Fleet, E., Foreman, W., Gagliardi, C. A., Haim, D., Hallin, A., Hoffman, C. M., Hogan, G. E., Hughes, E. B., Hungerford III, E. V., Jui, C. C. H., Kim, G. J., Knott, J. E., Koetke, D. D., Kozlowski, T., Kroupa, M. A., Kunselman, A. R., Lan, K. A., Laptev, V., Lee, D., Liu, F., Manweiler, R. W., Marshall, R., Mayes II, B. W., Mischke, R. E., Nefkens, B. M. K., Nickerson, L. M., Nord, P. M., Oothoudt, M. A., Otis, J. N., Phelps, R., Piilonen, L. E., Pillai, C., Pinsky, L., Ritter, M. W., Smith, C., Stanislaus, T. D. S., Stantz, K. M., Szymanski, J. J., Tang, L., Tippens, W. B., Tribble, R. E., Tu, X. L., Van Ausdeln, L. A., Von Witch, W. H., Whitehouse, D., Wilkinson, C., Wright, B., Wright, S. C., Zhang, Y., Ziock, K. O. H., Ahmed, M., Amann, J. F., Barlow, D., Black, K., Bolton, R. D., Brooks, M. L., Carius, Staffan, Chen, Y. K., Chernyshev, A., Concannon, H. M., Cooper, M. D., Cooper, P. S., Crocker, J., Dittmann, J. R., Dzemidzic, M., Empl, A., Fisk, R. J., Fleet, E., Foreman, W., Gagliardi, C. A., Haim, D., Hallin, A., Hoffman, C. M., Hogan, G. E., Hughes, E. B., Hungerford III, E. V., Jui, C. C. H., Kim, G. J., Knott, J. E., Koetke, D. D., Kozlowski, T., Kroupa, M. A., Kunselman, A. R., Lan, K. A., Laptev, V., Lee, D., Liu, F., Manweiler, R. W., Marshall, R., Mayes II, B. W., Mischke, R. E., Nefkens, B. M. K., Nickerson, L. M., Nord, P. M., Oothoudt, M. A., Otis, J. N., Phelps, R., Piilonen, L. E., Pillai, C., Pinsky, L., Ritter, M. W., Smith, C., Stanislaus, T. D. S., Stantz, K. M., Szymanski, J. J., Tang, L., Tippens, W. B., Tribble, R. E., Tu, X. L., Van Ausdeln, L. A., Von Witch, W. H., Whitehouse, D., Wilkinson, C., Wright, B., Wright, S. C., Zhang, Y., and Ziock, K. O. H.

Abstract

The MEGA experiment, which searched for the muon- and electron-number violating decay μ +→e + γ, is described. The spectrometer system, the calibrations, the data taking procedures, the data analysis, and the sensitivity of the experiment are discussed. The most stringent upper limit on the branching ratio, B(μ + →e + γ)<1.2×10 -11 with 90% confidence, is derived from a likelihood analysis., Art. No.: 112002

Published
2002
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34. MEGA: a search for the rare decay $\mu$ --> e$\gamma$ at the level of 5 x 10$^{-13}$

Author

Amann, J F, Barakat, M B, Barlow, D, Black, K, Bolton, R D, Carius, S, Chen, Y, Cooper, M D, Cooper, P S, Dzemidzic, M, Fisk, R J, Flick, J, Foreman, W, Gagliardi, C A, Hahn, K, Haim, D, Hallin, A L, Hoffman, C M, Hogan, G E, Hughes, E B, Hungerford, E V, Johnston, K, Jui, C, Kim, G, Knott, J E, Koetke, D D, Kozlovskii, T, Kroupa, M A, Lan, K, Liu, F, Manweiler, R, Mayes, B W, Mischke, R E, Nefkens, B M K, Oothoudt, M A, Otis, J N, Phelps, R, Piilonen, L E, Pillai, C, Pinsky, L, Ritter, M W, Stanislaus, S, Stantz, K, Stephens, W A, Szymanski, J J, Tang, L, Tippens, B, Tribble, R E, Tu, X, Van Ausdeln, L A, Von Witsch, W H, Whitehouse, D, Wilkinson, C, Wright, B, Wright, S C, Zhang, Y, Zhou, W, Zhou, X, and Ziock, K O H

Subjects
Particle Physics - Phenomenology
Published
1993

36. Search for the lepton-family-number nonconserving decayμ+→e+γ

Author

Ahmed, M., primary, Amann, J. F., additional, Barlow, D., additional, Black, K., additional, Bolton, R. D., additional, Brooks, M. L., additional, Carius, S., additional, Chen, Y. K., additional, Chernyshev, A., additional, Concannon, H. M., additional, Cooper, M. D., additional, Cooper, P. S., additional, Crocker, J., additional, Dittmann, J. R., additional, Dzemidzic, M., additional, Empl, A., additional, Fisk, R. J., additional, Fleet, E., additional, Foreman, W., additional, Gagliardi, C. A., additional, Haim, D., additional, Hallin, A., additional, Hoffman, C. M., additional, Hogan, G. E., additional, Hughes, E. B., additional, Hungerford, E. V., additional, Jui, C. C. H., additional, Kim, G. J., additional, Knott, J. E., additional, Koetke, D. D., additional, Kozlowski, T., additional, Kroupa, M. A., additional, Kunselman, A. R., additional, Lan, K. A., additional, Laptev, V., additional, Lee, D., additional, Liu, F., additional, Manweiler, R. W., additional, Marshall, R., additional, Mayes, B. W., additional, Mischke, R. E., additional, Nefkens, B. M. K., additional, Nickerson, L. M., additional, Nord, P. M., additional, Oothoudt, M. A., additional, Otis, J. N., additional, Phelps, R., additional, Piilonen, L. E., additional, Pillai, C., additional, Pinsky, L., additional, Ritter, M. W., additional, Smith, C., additional, Stanislaus, T. D. S., additional, Stantz, K. M., additional, Szymanski, J. J., additional, Tang, L., additional, Tippens, W. B., additional, Tribble, R. E., additional, Tu, X. L., additional, Van Ausdeln, L. A., additional, von Witch, W. H., additional, Whitehouse, D., additional, Wilkinson, C., additional, Wright, B., additional, Wright, S. C., additional, Zhang, Y., additional, and Ziock, K. O. H., additional

Published
2002
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37. A study of the decay mu –> e gamma by the MEGA experiment

Author

Szymanski, J. J., Ahmed, M., Amann, J. F., Barlow, D., Black, K., Bolton, K., Brooks, M., Carius, Staffan, Chen, Y., Chernyshev, A., Cooper, M. D., Cooper, P. S., Crocker, J., Dzemidzic, M., Empl, A., Fisk, R. J., Flick, J., Foreman, W., Gagliardi, C. A., Haim, D., Hallin, A., Harrison, R., Hart, G., Hoffman, C. M., Hogan, G. E., Hughes, E. B., Hungerford, K., Johnston, K., Jui, C., Kim, G. J., Knott, J. E., Koetke, D. D., Kroupa, M. A., Kozlowski, T., Lan, K., Laptev, V., Lee, D., Lee, F. S., Liu, F., Manweiler, R., Marshall, R., Mayes, B. W., Mischke, R. E., Naivar, F. J., Nefkens, B. M. K., Novak, J., Oothoudt, M. A., Otis, J. N., Phelps, R., Piilonen, L. E., Pillai, C., Pinsky, Lawrence S., Price, J., Ritter, M. W., Schilling, S., Stanislaus, T. D. S., Stantz, K. M., Stephens, W., Sturrock, J., Tang, L., Tippens, B., Tribble, R. E., Tu, X. L., Van Ausdeln, L. A., von Witsch, W., Whitehouse, D., Wilkinson, C., Wright, B., Wright, S. C., Zhang, Y., Zhou, W., Zhou, X. G., Ziock, K. O. H., Szymanski, J. J., Ahmed, M., Amann, J. F., Barlow, D., Black, K., Bolton, K., Brooks, M., Carius, Staffan, Chen, Y., Chernyshev, A., Cooper, M. D., Cooper, P. S., Crocker, J., Dzemidzic, M., Empl, A., Fisk, R. J., Flick, J., Foreman, W., Gagliardi, C. A., Haim, D., Hallin, A., Harrison, R., Hart, G., Hoffman, C. M., Hogan, G. E., Hughes, E. B., Hungerford, K., Johnston, K., Jui, C., Kim, G. J., Knott, J. E., Koetke, D. D., Kroupa, M. A., Kozlowski, T., Lan, K., Laptev, V., Lee, D., Lee, F. S., Liu, F., Manweiler, R., Marshall, R., Mayes, B. W., Mischke, R. E., Naivar, F. J., Nefkens, B. M. K., Novak, J., Oothoudt, M. A., Otis, J. N., Phelps, R., Piilonen, L. E., Pillai, C., Pinsky, Lawrence S., Price, J., Ritter, M. W., Schilling, S., Stanislaus, T. D. S., Stantz, K. M., Stephens, W., Sturrock, J., Tang, L., Tippens, B., Tribble, R. E., Tu, X. L., Van Ausdeln, L. A., von Witsch, W., Whitehouse, D., Wilkinson, C., Wright, B., Wright, S. C., Zhang, Y., Zhou, W., Zhou, X. G., and Ziock, K. O. H.

Published
1996

38. MEGA : A search for the decay mu –> e gamma

Author

Szymanski, J. J., Amann, J. F., Baker, O. Keith, Barlow, D., Black, K., Bolton, R. D., Brooks, M., Carius, Staffan, Chen, Y., Cooper, M. D., Cooper, P. S., Crocker, J., Dzemidzic, M., Fisk, R. J., Flick, J., Foreman, W., Gagliardi, C. A., Haim, D., Hallin, A., Harrison, R., Hart, G., Hoffman, C. M., Hogan, G. E., Hughes, E. B., Hungerford, E. V., Johston, K., Jui, C. C. H., Kim, G. J., Knott, J. E., Koetke, D. D., Kroupa, M. A., Kozlowski, T., Lan, K., Lee, D., Liu, F., Manweiler, R., Marshall, R., Mayes, B. W., Mischke, R. E., Naivar, F. J., Nefkens, B. M. K., Novak, J., Oothoudt, M. A., Otis, J. N., Phelps, R., Piilonen, L. E., Pillai, C., Pinsky, Lawrence S., Price, J., Ritter, M. W., Schilling, S., Stanislaus, T. D. S., Stantz, K. M., Stephens, W., Sturrock, J., Tang, L., Tippens, B., Tribble, R. E., Tu, X. L., Van Ausdeln, L. A., von Witsch, W., Whitehouse, D., Wilkinson, C., Wright, B., Wright, S. C., Zhang, Y., Zhou, W., Zhou, X. G., Ziock, K. O. H., Szymanski, J. J., Amann, J. F., Baker, O. Keith, Barlow, D., Black, K., Bolton, R. D., Brooks, M., Carius, Staffan, Chen, Y., Cooper, M. D., Cooper, P. S., Crocker, J., Dzemidzic, M., Fisk, R. J., Flick, J., Foreman, W., Gagliardi, C. A., Haim, D., Hallin, A., Harrison, R., Hart, G., Hoffman, C. M., Hogan, G. E., Hughes, E. B., Hungerford, E. V., Johston, K., Jui, C. C. H., Kim, G. J., Knott, J. E., Koetke, D. D., Kroupa, M. A., Kozlowski, T., Lan, K., Lee, D., Liu, F., Manweiler, R., Marshall, R., Mayes, B. W., Mischke, R. E., Naivar, F. J., Nefkens, B. M. K., Novak, J., Oothoudt, M. A., Otis, J. N., Phelps, R., Piilonen, L. E., Pillai, C., Pinsky, Lawrence S., Price, J., Ritter, M. W., Schilling, S., Stanislaus, T. D. S., Stantz, K. M., Stephens, W., Sturrock, J., Tang, L., Tippens, B., Tribble, R. E., Tu, X. L., Van Ausdeln, L. A., von Witsch, W., Whitehouse, D., Wilkinson, C., Wright, B., Wright, S. C., Zhang, Y., Zhou, W., Zhou, X. G., and Ziock, K. O. H.

Published
1994

39. New Limit for the Lepton-Family-Number Nonconserving Decayμ+→e+γ

Author

Brooks, M. L., primary, Chen, Y. K., additional, Cooper, M. D., additional, Cooper, P. S., additional, Dzemidzic, M., additional, Empl, A., additional, Gagliardi, C. A., additional, Hogan, G. E., additional, Hughes, E. B., additional, Hungerford, E. V., additional, Jui, C. C. H., additional, Knott, J. E., additional, Koetke, D. D., additional, Kroupa, M. A., additional, Lan, K. A., additional, Manweiler, R., additional, Mayes, B. W., additional, Mischke, R. E., additional, Piilonen, L. E., additional, Stanislaus, T. D. S., additional, Stantz, K. M., additional, Szymanski, J. J., additional, Tribble, R. E., additional, Tu, X. L., additional, Van Ausdeln, L. A., additional, von Witsch, W. H., additional, Wright, S. C., additional, and Ziock, K. O. H., additional

Published
1999
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40. MEGA : A Search for the rare decay mu —> e gamma at the level of 5 x 10**-13

Author

Piilonen, L. E., Amann, J. F., Barakat, M., Barlow, D., Black, K., Bolton, R. D., Carius, Staffan, Chen, Y., Cooper, M. D., Cooper, P. S., Dzemedzic, M., Fisk, R. J., Flick, J., Foreman, W. M., Gagliardi, C., Hahn, K. I., Haim, D., Hallin, A., Hoffman, C. M., Hogan, G. E., Hughes, E. B., Hungerford, E. V., Johnston, K., Jui, C. C. H., Kim, G., Knott, J., Koetke, D. D., Kozlowski, T., Kroupa, M. A., Lan, K., Liu, F., Manweiler, R., Mayes, B. W., Mischke, R. E., Nefkens, B. M. K., Oothoudt, M. A., Otis, J. N., Phelps, R., Pillai, C., Pinsky, Lawrence S., Ritter, M. W., Stanislaus, S., Stanz, K., Stephens, W., Szymanski, J., Tang, L., Tippens, B., Tribble, R. E., Tu, X., Van Ausdeln, L., von Witsch, W., Whitehouse, D., Wilkinson, C., Wright, B., Wright, S. C., Zhang, Y., Zhou, W., Ziock, K. O. H., Piilonen, L. E., Amann, J. F., Barakat, M., Barlow, D., Black, K., Bolton, R. D., Carius, Staffan, Chen, Y., Cooper, M. D., Cooper, P. S., Dzemedzic, M., Fisk, R. J., Flick, J., Foreman, W. M., Gagliardi, C., Hahn, K. I., Haim, D., Hallin, A., Hoffman, C. M., Hogan, G. E., Hughes, E. B., Hungerford, E. V., Johnston, K., Jui, C. C. H., Kim, G., Knott, J., Koetke, D. D., Kozlowski, T., Kroupa, M. A., Lan, K., Liu, F., Manweiler, R., Mayes, B. W., Mischke, R. E., Nefkens, B. M. K., Oothoudt, M. A., Otis, J. N., Phelps, R., Pillai, C., Pinsky, Lawrence S., Ritter, M. W., Stanislaus, S., Stanz, K., Stephens, W., Szymanski, J., Tang, L., Tippens, B., Tribble, R. E., Tu, X., Van Ausdeln, L., von Witsch, W., Whitehouse, D., Wilkinson, C., Wright, B., Wright, S. C., Zhang, Y., Zhou, W., and Ziock, K. O. H.

Published
1993

42. A search for murarregamma at the level of 10-13

Author

Amann, F., Black, K., Bolton, R. D., Carius, Staffan, Cooper, M. D., Foreman, W., Hansen, C., Harrison, R., Hart, G., Hart, V., Hoffman, C. M., Hoffman, N., Hunter, T., Hogan, G. E., June, N., Kercher, D., Little, J., Kozlowski, T., Mischke, R. E., Naivar, F. J., Novak, J., Oothoudt, M. A., Pillai, C., Schilling, S., Smith, W., Stanislaus, S., Sturrock, J., Szymanski, J., Van Dyke, J., Werbeck, R. D., Whitehouse, D., Wilkinson, C., Crocker, J., Wright, S. C., Cooper, P. S., Dzemidzic, M., Flick, J., Hungerford, E. V. , I I I, Johnston, K., Lan, K., Mayes, B. W. , I I, Phelps, R., Pinsky, L., von Witsch, W., Hallin, A., Hughes, E. B., Jui, C., Otis, J. N., Ritter, M. W., Gagliardi, C., Kim, G., Liu, F., Tribble, R. E., Van Ausdeln, L., Barlow, D., Kessler, R., Nefkens, B. M. K., Price, J., Tippens, B., Fisk, R. J., Koetke, D. D., Manweiler, R., Marshall, R., Stephens, W., Ziock, K. O. H., Piilonen, L. E., Kunselman, A. R., Hahn, K., Markey, J. K., Phua, K. K., Yamaguchi, Y., Amann, F., Black, K., Bolton, R. D., Carius, Staffan, Cooper, M. D., Foreman, W., Hansen, C., Harrison, R., Hart, G., Hart, V., Hoffman, C. M., Hoffman, N., Hunter, T., Hogan, G. E., June, N., Kercher, D., Little, J., Kozlowski, T., Mischke, R. E., Naivar, F. J., Novak, J., Oothoudt, M. A., Pillai, C., Schilling, S., Smith, W., Stanislaus, S., Sturrock, J., Szymanski, J., Van Dyke, J., Werbeck, R. D., Whitehouse, D., Wilkinson, C., Crocker, J., Wright, S. C., Cooper, P. S., Dzemidzic, M., Flick, J., Hungerford, E. V. , I I I, Johnston, K., Lan, K., Mayes, B. W. , I I, Phelps, R., Pinsky, L., von Witsch, W., Hallin, A., Hughes, E. B., Jui, C., Otis, J. N., Ritter, M. W., Gagliardi, C., Kim, G., Liu, F., Tribble, R. E., Van Ausdeln, L., Barlow, D., Kessler, R., Nefkens, B. M. K., Price, J., Tippens, B., Fisk, R. J., Koetke, D. D., Manweiler, R., Marshall, R., Stephens, W., Ziock, K. O. H., Piilonen, L. E., Kunselman, A. R., Hahn, K., Markey, J. K., Phua, K. K., and Yamaguchi, Y.

Abstract

The MEGA experiment, which is a search for the decay murarregamma with a branching ratio sensitivity of about 10-13, employs highly modular, fast detectors, state-of-the-art electronics, and a staged trigger with on-line filters. The detectors are contained in a 1.5-T solenoidal field produced by a superconducting magnet. Positrons are confined to the central region and are measured by a set of thin MWPCs. Photons are measured by one of four layers of pair spectrometers in the outer region. Most aspects of the design have been validated in engineering runs; data taking will begin in 1990 with much of the electron arm and one pair spectrometer layer installed.

Published
1991

45. Measurement of the Michel rho parameter in direct muon decay

Author

Piilonen, Leo, primary, Amann, J. F., additional, Bolton, R. D., additional, Chen, Y., additional, Cooper, M. D., additional, Cooper, P. S., additional, Dzemidzic, M., additional, Foreman, W., additional, Gagliardi, C. A., additional, Haim, D., additional, Harrison, R., additional, Hart, G., additional, Hogan, G. E., additional, Hungerford, E. V., additional, Jui, C. C. H., additional, Knott, J. E., additional, Koetke, D. D., additional, Kozlowski, T., additional, Kroupa, M. A., additional, Lan, K., additional, Lee, F. S., additional, Liu, F., additional, Manweiler, R., additional, Mayes, B. W., additional, Mischke, R. E., additional, Pillai, C., additional, Pinsky, L., additional, Schilling, S., additional, Stanislaus, T. D. S., additional, Stantz, K. M., additional, Szymanski, J. J., additional, Tribble, R. E., additional, Tu, X. L., additional, Van Ausdeln, L. A., additional, von Witsch, W., additional, Whitehouse, D., additional, Wright, B. K., additional, Wright, S. C., additional, Zhang, Y., additional, and Ziock, K. O. H., additional

Published
1997
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49. MEGA: A search for the decay μ→eγ

Author

Szymanski, J. J., primary, Amann, J. F., additional, Baker, K., additional, Barlow, D., additional, Black, K., additional, Bolton, R. D., additional, Brooks, M., additional, Carius, S., additional, Chen, Y., additional, Cooper, M. D., additional, Cooper, P. S., additional, Crocker, J., additional, Dzemidzic, M., additional, Fisk, R. J., additional, Flick, J., additional, Foreman, W., additional, Gagliardi, C. A., additional, Haim, D., additional, Hallin, A., additional, Harrison, R., additional, Hart, G., additional, Hoffman, C. M., additional, Hogan, G. E., additional, Hughes, E. B., additional, Hungerford, E. V., additional, Johnston, K., additional, Jui, C., additional, Kim, G. J., additional, Knott, J. E., additional, Koetke, D. D., additional, Kroupa, M. A., additional, Kozlowski, T., additional, Lan, K., additional, Lee, D., additional, Liu, F., additional, Manweiler, R., additional, Marshall, R., additional, Mayes, B. W., additional, Mischke, R. E., additional, Naivar, F. J., additional, Nefkens, B. M. K., additional, Novak, J., additional, Oothoudt, M. A., additional, Otis, J. N., additional, Phelps, R., additional, Piilonen, L. E., additional, Pillai, C., additional, Pinsky, L., additional, Price, J., additional, Ritter, M. W., additional, Schilling, S., additional, Stanislaus, T. D. S., additional, Stantz, K. M., additional, Stephens, W., additional, Sturrock, J., additional, Tang, L., additional, Tippens, B., additional, Tribble, R. E., additional, Tu, X.-L., additional, Van Ausdeln, L. A., additional, vonWitsch, W., additional, Whitehouse, D., additional, Wilkinson, C., additional, Wright, B., additional, Wright, S. C., additional, Zhang, Y., additional, Zhou, W., additional, Zhou, X.-G., additional, and Ziock, K. O. H., additional

Published
1995
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50. Measurement of the Michel parameter ρ in normal muon decay

Author

Tu, X.-L., primary, Amann, J. F., additional, Bolton, R. D., additional, Chen, Y., additional, Cooper, M. D., additional, Cooper, P. S., additional, Dzemidzic, M., additional, Foreman, W., additional, Gagliardi, C. A., additional, Haim, D., additional, Harrison, R., additional, Hart, G., additional, Hogan, G. E., additional, Hungerford, E. V., additional, Jui, C. C. H., additional, Knott, J. E., additional, Koetke, D. D., additional, Kozlowski, T., additional, Kroupa, M. A., additional, Lan, K., additional, Liu, F., additional, Manweiler, R., additional, Mayes, B. W., additional, Mischke, R. E., additional, Otis, J. N., additional, Piilonen, L. E., additional, Pillai, C., additional, Pinsky, L., additional, Schilling, S., additional, Stanislaus, T. D. S., additional, Stantz, K. M., additional, Szymanski, J. J., additional, Tribble, R. E., additional, Van Ausdeln, L. A., additional, von Witsch, W., additional, Whitehouse, D., additional, Wright, B. K., additional, Wright, S. C., additional, Zhang, Y., additional, Ziock, K. O. H., additional, and Zhou, W., additional

Published
1995
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