Search Results - "Lee, B.Q."

Probing the N=14 subshell closure: g factor of the Mg26(21+) state by McCormick, B.P., Stuchbery, A.E., Kibédi, T., Lane, G.J., Reed, M.W., Eriksen, T.K., Hota, S.S., Lee, B.Q., Palalani, N.

“…The first-excited state g factor of 26Mg has been measured relative to the g factor of the Mg24(21+) state using the high-velocity transient-field technique,…”
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Single-cell S -value calculations for Auger-electron emitting radionuclides by Lee, B.Q, Falzone, N, Fernández-Varea, J.M, Vallis, K.A, Stuchbery, A.E, Kibédi, T

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Identification of significant E0 strength in the 22+→21+ transitions of 58,60,62Ni by Evitts, L.J., Garnsworthy, A.B., Kibédi, T., Smallcombe, J., Reed, M.W., Brown, B.A., Stuchbery, A.E., Lane, G.J., Eriksen, T.K., Akber, A., Alshahrani, B., de Vries, M., Gerathy, M.S.M., Holt, J.D., Lee, B.Q., McCormick, B.P., Mitchell, A.J., Moukaddam, M., Mukhopadhyay, S., Palalani, N., Palazzo, T., Peters, E.E., Ramirez, A.P.D., Stroberg, S.R., Tornyi, T., Yates, S.W.

“…The E0 transition strength in the 22+→21+ transitions of 58,60,62Ni have been determined for the first time following a series of measurements at the…”
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Atomic Radiation in Nuclear Decay by Lee, B.Q., Kibédi, T., Stuchbery, A.E., Robertson, K.A.

“…Auger electrons emitted in nuclear decay offer a unique tool to kill cancer cells at the scale of a DNA molecule. Over the last forty years many aspects of…”
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Simulation of 125 I Auger emission spectrum with new atomic parameters from MCDHF calculations by Sampaio, J.M., Ekman, J., Tee, B.P.E., du Rietz, R., Lee, B.Q., Pires, M.S., Jönsson, P., Kibédi, T., Vos, M., Stuchbery, A.E., Marques, J.P.

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Simulation of 125I Auger emission spectrum with new atomic parameters from MCDHF calculations by Sampaio, J.M., Ekman, J., Tee, B.P.E., du Rietz, R., Lee, B.Q., Pires, M.S., Jönsson, P., Kibédi, T., Vos, M., Stuchbery, A.E., Marques, J.P.

“…•New 125I atomic decay emission data from MCDHF calculations are presented.•Simulated Auger electron emission spectra using the new data and the EADL are…”
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Probing the N= 14 subshell closure: g factor of the Mg 26 ( 2 1 + ) state by McCormick, B.P., Stuchbery, A.E., Kibédi, T., Lane, G.J., Reed, M.W., Eriksen, T.K., Hota, S.S., Lee, B.Q., Palalani, N.

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134 - Single-cell S-value calculations for Auger-electron emitting radionuclides by Lee, B.Q., Falzone, N., Fernández-Varea, J.M., Vallis, K.A., Stuchbery, A.E., Kibédi, T.

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Solenogam: A new detector array for γ-ray and conversion-electron spectroscopy of long-lived states in fusion-evaporation products by Gerathy, M.S.M., Lane, G.J., Dracoulis, G.D., Nieminen, P., Kibédi, T., Reed, M.W., Akber, A., Coombes, B.J., Dasgupta, M., Dowie, J.T.H., Gray, T.J., Hinde, D.J., Lee, B.Q., Mitchell, A.J., Palazzo, T., Stuchbery, A.E., Whichello, L., Wright, A.M.

“…A new detector array, Solenogam, has been developed at the Australian National University Heavy Ion Accelerator Facility. Coupled initially to the SOLITAIRE…”
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Identification of significant E0 strength in the 2 2 + → 2 1 + transitions of 58,60,62Ni by Evitts, L.J., Garnsworthy, A.B., Kibédi, T., Smallcombe, J., Reed, M.W., Brown, B.A., Stuchbery, A.E., Lane, G.J., Eriksen, T.K., Akber, A., Alshahrani, B., de Vries, M., Gerathy, M.S.M., Holt, J.D., Lee, B.Q., McCormick, B.P., Mitchell, A.J., Moukaddam, M., Mukhopadhyay, S., Palalani, N., Palazzo, T., Peters, E.E., Ramirez, A.P.D., Stroberg, S.R., Tornyi, T., Yates, S.W.

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Influence of host matrices on krypton electron binding energies and KLL Auger transition energies by Inoyatov, А.Kh, Perevoshchikov, L.L., Kovalík, A., Filosofov, D.V., Yushkevich, Yu.V., Ryšavý, M., Lee, B.Q., Kibédi, T., Stuchbery, A.E., Zhdanov, V.S.

“…•The K, L1–3, M1–3 electron binding energies in Kr in the Pt bulk determined.•The K, L1–3, M1–3 electron binding energies in Kr in an evaporated Rb layer…”
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Strengthening TiN diffusion barriers for Cu metallization by lightly doping Al by Yang, L. C., Hsu, C. S., Chen, G. S., Fu, C. C., Zuo, J. M., Lee, B. Q.

“…Thin films of Ti1−xAlxN were deposited on (100) Si by ultrahigh-vacuum dual-target reactive sputtering, and the impact of lightly doping Al of x as small as…”
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