Your search keyword '"Omtvedt, JP"' showing total 4 results

1. Low-lying states in Ra219 and Rn215: Sampling microsecond α-decaying nuclei

Author

Såmark-Roth, A, Sarmiento, LG, Rudolph, D, Ljungberg, J, Carlsson, BG, Fahlander, C, Forsberg, U, Golubev, P, Ragnarsson, I, Ackermann, D, Andersson, L-L, Block, M, Brand, H, Cox, DM, Di Nitto, A, Düllmann, Ch E, Eberhardt, K, Even, J, Gates, JM, Gerl, J, Gregorich, KE, Gross, CJ, Herzberg, R-D, Heßberger, FP, Jäger, E, Khuyagbaatar, J, Kindler, B, Kojouharov, I, Kratz, JV, Krier, J, Kurz, N, Lommel, B, Mistry, A, Mokry, C, Omtvedt, JP, Papadakis, P, Runke, J, Rykaczewski, K, Schädel, M, Schaffner, H, Schausten, B, Thörle-Pospiech, P, Trautmann, N, Torres, T, Türler, A, Ward, A, Wiehl, N, and Yakushev, A

Subjects

Particle and Plasma Physics, Molecular, Nuclear, Atomic, Nuclear & Particles Physics

Abstract

Short-lived α-decaying nuclei "northeast" of Pb208 in the chart of nuclides were studied using the reaction Ca48+Am243 with the decay station TASISpec at TASCA, GSI Darmstadt. Decay energies and times from pile-up events were extracted with a tailor-made pulse-shape analysis routine and specific α-decay chains were identified in a correlation analysis. Decay chains starting with the even-even Ra220 and its odd-A neighbors, Fr219, and Ra221,219, with a focus on the Ra219→Rn215 decay, were studied by means of α-γ spectroscopy. A revised α-decay scheme of Ra219 is proposed, including a new decay branch from a previously not considered isomeric state at 17 keV excitation energy. Conclusions on nuclear structure are drawn from the experimental data, aided by Geant4 simulations and a discussion on theoretical calculations.

Published

2018

2. Study of non-fusion products in the Ti50+Cf249 reaction

Author

Di Nitto, A, Khuyagbaatar, J, Ackermann, D, Andersson, LL, Badura, E, Block, M, Brand, H, Conrad, I, Cox, DM, Düllmann, CE, Dvorak, J, Eberhardt, K, Ellison, PA, Esker, NE, Even, J, Fahlander, C, Forsberg, U, Gates, JM, Golubev, P, Gothe, O, Gregorich, KE, Hartmann, W, Herzberg, RD, Heßberger, FP, Hoffmann, J, Hollinger, R, Hübner, A, Jäger, E, Kindler, B, Klein, S, Kojouharov, I, Kratz, JV, Krier, J, Kurz, N, Lahiri, S, Lommel, B, Maiti, M, Mändl, R, Merchán, E, Minami, S, Mistry, AK, Mokry, C, Nitsche, H, Omtvedt, JP, Pang, GK, Renisch, D, Rudolph, D, Runke, J, Sarmiento, LG, Schädel, M, Schaffner, H, Schausten, B, Semchenkov, A, Steiner, J, Thörle-Pospiech, P, Trautmann, N, Türler, A, Uusitalo, J, Ward, D, Wegrzecki, M, Wieczorek, P, Wiehl, N, Yakushev, A, Yakusheva, V, Di Nitto, A., Khuyagbaatar, J., Ackermann, D., Andersson, L. -L., Badura, E., Block, M., Brand, H., Conrad, I., Cox, D. M., Dullmann, C. E., Dvorak, J., Eberhardt, K., Ellison, P. A., Esker, N. E., Even, J., Fahlander, C., Forsberg, U., Gates, J. M., Golubev, P., Gothe, O., Gregorich, K. E., Hartmann, W., Herzberg, R. D., Hessberger, F. P., Hoffmann, J., Hollinger, R., Hubner, A., Jager, E., Kindler, B., Klein, S., Kojouharov, I., Kratz, J. V., Krier, J., Kurz, N., Lahiri, S., Lommel, B., Maiti, M., Mandl, R., Merchan, E., Minami, S., Mistry, A. K., Mokry, C., Nitsche, H., Omtvedt, J. P., Pang, G. K., Renisch, D., Rudolph, D., Runke, J., Sarmiento, L. G., Schadel, M., Schaffner, H., Schausten, B., Semchenkov, A., Steiner, J., Thorle-Pospiech, P., Trautmann, N., Turler, A., Uusitalo, J., Ward, D., Wegrzecki, M., Wieczorek, P., Wiehl, N., Yakushev, A., and Yakusheva, V.

Subjects

Multi-nucleon transfer reactions, alpha decay, Molecular, Production of radioactive nuclei, Atomic, Nuclear & Particles Physics, lcsh:QC1-999, Particle and Plasma Physics, Quasifission, Nuclear, Multi-nucleon transfer reaction, α decay, Nuclear Experiment, lcsh:Physics, Mathematical Physics, Astronomical and Space Sciences

Abstract

The isotopic distribution of nuclei produced in the 50Ti + 249Cf reaction has been studied at the gas-filled recoil separator TASCA at GSI Darmstadt, which separates ions according to differences in magnetic rigidity. The bombardment was performed at an energy around the Bass barrier and with the TASCA magnetic fields set for collecting fusion-evaporation reaction products. Fifty-three isotopes located “north-east” of 208Pb were identified as recoiling products formed in non-fusion channels of the reaction. These recoils were implanted with energies in two distinct ranges; besides one with higher energy, a significant low-energy contribution was identified. The latter observation was not expected to occur according to kinematics of the known types of reactions, namely quasi-elastic, multi-nucleon transfer, deep-inelastic collisions or quasifission. The present observations are discussed within the framework of two-body kinematics passing through the formation of a composite system. Keywords: Production of radioactive nuclei, α decay, Multi-nucleon transfer reactions, Quasifission

Published

2018

3. Study of non-fusion products in the Ti 50 + Cf 249 reaction

Author

Di Nitto, A, Khuyagbaatar, J, Ackermann, D, Andersson, L-L, Badura, E, Block, M, Brand, H, Conrad, I, Cox, DM, Düllmann, Ch E, Dvorak, J, Eberhardt, K, Ellison, PA, Esker, NE, Even, J, Fahlander, C, Forsberg, U, Gates, JM, Golubev, P, Gothe, O, Gregorich, KE, Hartmann, W, Herzberg, RD, Heßberger, FP, Hoffmann, J, Hollinger, R, Hübner, A, Jäger, E, Kindler, B, Klein, S, Kojouharov, I, Kratz, JV, Krier, J, Kurz, N, Lahiri, S, Lommel, B, Maiti, M, Mändl, R, Merchán, E, Minami, S, Mistry, AK, Mokry, C, Nitsche, H, Omtvedt, JP, Pang, GK, Renisch, D, Rudolph, D, Runke, J, Sarmiento, LG, Schädel, M, Schaffner, H, Schausten, B, Semchenkov, A, Steiner, J, Thörle-Pospiech, P, Trautmann, N, Türler, A, Uusitalo, J, Ward, D, Wegrzecki, M, Wieczorek, P, Wiehl, N, Yakushev, A, and Yakusheva, V

Subjects

Multi-nucleon transfer reactions, Particle and Plasma Physics, alpha decay, Quasifission, Molecular, Nuclear, Production of radioactive nuclei, Atomic, Nuclear & Particles Physics, Mathematical Physics, Astronomical and Space Sciences

Abstract

The isotopic distribution of nuclei produced in the 50Ti + 249Cf reaction has been studied at the gas-filled recoil separator TASCA at GSI Darmstadt, which separates ions according to differences in magnetic rigidity. The bombardment was performed at an energy around the Bass barrier and with the TASCA magnetic fields set for collecting fusion-evaporation reaction products. Fifty-three isotopes located “north-east” of 208Pb were identified as recoiling products formed in non-fusion channels of the reaction. These recoils were implanted with energies in two distinct ranges; besides one with higher energy, a significant low-energy contribution was identified. The latter observation was not expected to occur according to kinematics of the known types of reactions, namely quasi-elastic, multi-nucleon transfer, deep-inelastic collisions or quasifission. The present observations are discussed within the framework of two-body kinematics passing through the formation of a composite system.

Published

2018

4. Experimental study of the U238(S36,3-5n)Hs269-271 reaction leading to the observation of Hs270

Author

Graeger, R, Ackermann, D, Chelnokov, M, Chepigin, V, Düllmann, CE, Dvorak, J, Even, J, Gorshkov, A, Heßberger, FP, Hild, D, Hübner, A, Jäger, E, Khuyagbaatar, J, Kindler, B, Kratz, JV, Krier, J, Kuznetsov, A, Lommel, B, Nishio, K, Nitsche, H, Omtvedt, JP, Petrushkin, O, Rudolph, D, Runke, J, Samadani, F, Schädel, M, Schausten, B, Türler, A, Yakushev, A, and Zhi, Q

Subjects

Particle and Plasma Physics, Molecular, Nuclear, Nuclear & Particles Physics, Atomic

Abstract

The deformed doubly magic nucleus Hs270 has so far only been observed as the four-neutron (4n) evaporation residue of the reaction Mg26+Cm248, where a maximum cross section of 3 pb was measured. Theoretical studies on the formation of Hs270 in the 4n evaporation channel of fusion reactions with different entrance channel asymmetry in the framework of a two-parameter Smoluchowski equation predict that the reactions Ca48+Ra226 and S36+U238 result in higher cross sections due to lower reaction Q values, in contrast to simple arguments based on the reaction asymmetry, which predict opposite trends. Calculations using hivap predict cross sections for the reaction S36+U238 that are similar to those of the Mg26+Cm248 reaction. Here, we report on the first measurement of evaporation residues formed in the complete nuclear fusion reaction S36+U238 and the observation of Hs270, which is produced in the 4n evaporation channel, with a measured cross section of 0.8-0.7+2.6 pb at 51-MeV excitation energy. The one-event cross-section limits (68% confidence level) for the 3n, 4n, and 5n evaporation channels at 39-MeV excitation energy are 2.9 pb, while the cross-section limits of the 3n and 5n channel at 51 MeV are 1.5 pb. This is significantly lower than the 5n cross section of the Mg26+Cm248 reaction at similar excitation energy. © 2010 The American Physical Society.

Published

2010