Your search keyword '"Panu Ruotsalainen"' showing total 107 results

101. First prompt in-beam γ-ray spectroscopy of a superheavy element: the256Rf

Author

Pauli Peura, Paul Greenlees, R.-D. Herzberg, Juha Uusitalo, F. P. Heßberger, Philippos Papadakis, Ch. Theisen, S. Rinta, Andrej Herzan, M. Venhart, Daniel Cox, J. Piot, T. Grahn, Steffen Ketelhut, Jan Sarén, J. Rubert, B. Gall, G. Henning, Matti Leino, T. L. Khoo, R. L. Lozeva, B. Sulignano, A. Lopez-Martens, R. Julin, Ulrika Jakobsson, Paivi Nieminen, K. Hauschild, Juha Sorri, P. Rahkila, O. Dorvaux, C. Scholey, F. Dechery, J. Ljungvall, Panu Ruotsalainen, M. Asai, Janne Pakarinen, D. Seweryniak, S. Juutinen, Mikael Sandzelius, E. Parr, Peter M. Jones, L.-L. Andersson, and Zouhair Asfari

Subjects

Physics, History, Instrumentation, Shell (structure), Moment of inertia, Computer Science Applications, Education, Nuclear physics, medicine.anatomical_structure, medicine, Atomic physics, Spin (physics), Spectroscopy, Nucleus, Beam (structure)

Abstract

Using state-of-the-art γ-ray spectroscopic techniques, the first rotational band of a superheavy element, extending up to a spin of 20 , was discovered in the nucleus 256Rf. To perform such an experiment at the limits of the present instrumentation, several developments were needed. The most important of these developments was of an intense isotopically enriched 50Ti beam using the MIVOC method. The experimental set-up and subsequent analysis allowed the 256Rf ground-state band to be revealed. The rotational properties of the band are discussed and compared with neighboring transfermium nuclei through the study of their moments of inertia. These data suggest that there is no evidence of a significant deformed shell gap at Z = 104.

Published

2013

102. Transition probability studies in175Au

Author

J. Simpson, A. Dewald, David O'Donnell, Jan Sarén, Marcus Scheck, J. Ollier, Janne Pakarinen, J. P. Revill, Ulrika Jakobsson, H. V. Watkins, P. J. Sapple, Paul Greenlees, M. Nyman, Rauno Julin, Matti Leino, Juha Uusitalo, R. D. Page, Pauli Peura, P. Maierbeck, S. Juutinen, Susan Rigby, Th Köll, Panu Ruotsalainen, M. Venhart, Raymond J. Carroll, Th. Pissulla, P. Rahkila, N. M. Lumley, Juha Sorri, D. T. Joss, M. Hackstein, T. Grahn, Steffen Ketelhut, R. Krücken, M. Labiche, R.-D. Herzberg, C. Scholey, Paivi Nieminen, Peter M. Jones, and W. Rother

Subjects

History, Angular momentum, Chemistry, Yrast, Nuclear structure, Function (mathematics), Computer Science Applications, Education, Recoil, Quadrupole, Range (statistics), Physics::Atomic Physics, Atomic number, Atomic physics

Abstract

Transition probabilities have been measured between the low-lying yrast states in 175Au by employing the recoil distance Doppler-shift method combined with the selective recoil-decay tagging technique. Reduced transition probabilities and magnitudes of transition quadrupole moments have been extracted from measured lifetimes allowing dramatic changes in nuclear structure within a low excitation-energy range to probed. The transition quadrupole moment data are discussed in terms of available systematics as a function of atomic number and aligned angular momentum.

Published

2013

103. Promptγ-ray spectroscopy of the neutron-rich124Cd

Author

C. Scholey, G. Thiamova, Sami Rinta-Antila, Paul Greenlees, Panu Ruotsalainen, M. Ramdhane, Jan Sarén, Andrej Herzan, R. Julin, Grégoire Kessedjian, S. Juutinen, T. Malkiewicz, Peter M. Jones, A. Lopez-Martens, Guillaume Gey, Juha Sorri, Pauli Peura, Ulrika Jakobsson, Mikael Sandzelius, K. Hauschild, C. Sage, F. Drouet, Juha Uusitalo, P. Rahkila, T. Grahn, Steffen Ketelhut, Paivi Nieminen, Gary Simpson, A. Vancraeyenest, Laboratoire de Physique Subatomique et de Cosmologie (LPSC), and Institut polytechnique de Grenoble - Grenoble Institute of Technology (Grenoble INP )-Institut Polytechnique de Grenoble - Grenoble Institute of Technology-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Physics, Triple coincidence, [PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th], ta114, 010308 nuclear & particles physics, Fission, QC1-999, Astrophysics::High Energy Astrophysical Phenomena, Nuclear Theory, 7. Clean energy, 01 natural sciences, Engineering physics, Semiconductor detector, Nuclear physics, Isotopes of cadmium, 0103 physical sciences, Neutron, Nuclear Experiment, 010306 general physics, Spectroscopy, ComputingMilieux_MISCELLANEOUS

Abstract

Prompt γ -ray spectroscopy of neutron-rich cadmium isotopes has been performed. The nuclei of interest have been populated via a 25-MeV, proton-induced fission of the 238 U thick target and prompt γ -rays measured using the multi-detector HPGe array JUROGAM II. New high-spin decays have been observed and placed in the level scheme using triple coincidence gates. The experimental results are compared to shell-model calculations and show good agreement.

Published

2013

104. Recoil-decay tagging study of 205Fr

Author

Ulrika Jakobsson, Peter B. Jones, K. Hauschild, Sakari Juutinen, Rauno Julin, Steffen Ketelhut, Juha Uusitalo, Panu Rahkila, Markus Nyman, Timo Enqvist, Pauli Peura, Juha Sorri, Pasi Kuusiniemi, Panu Ruotsalainen, Matti Leino, Paul Greenlees, Jan Sarén, Catherine Scholey, CSNSM SNO, Centre de Spectrométrie Nucléaire et de Spectrométrie de Masse (CSNSM), 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)-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)-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

Physics, Nuclear physics, Nuclear and High Energy Physics, Recoil, ta114, 010308 nuclear & particles physics, 0103 physical sciences, Experimental nuclear physics, [PHYS.NEXP]Physics [physics]/Nuclear Experiment [nucl-ex], 010306 general physics, 01 natural sciences, 23.20.Lv, 23.35.+g, 27.80.+w, 29.30.Kv, Kokeellinen ydinfysiikka

Abstract

The nucleus 205Fr has been studied through γ -ray and electron spectroscopy using the recoil-decay tagging technique. The resulting level scheme presents a spherical structure built on the 9/2− ground state and a rotational structure on top of a short-lived isomer. The isomer, with a spin and parity of 13/2+ and a half-life of 80(20) ns, de-excites by an M2 transition directly to the 9/2− ground state. Another, longer-lived, isomer, with a half-life of 1.15(4) ms, has also been found and assigned a spin and parity of 1/2+. Transitions populating and de-exciting this isomer have been observed as well. peerReviewed

Published

2012

105. Lifetime measurements probing triple shape coexistence in ^{175}Au

Author

Panu Ruotsalainen, P. J. Sapple, M. Nyman, Susan Rigby, A. Dewald, David O'Donnell, P. Rahkila, J. Ollier, Juha Uusitalo, T. Kröll, J. Simpson, M. Venhart, R.-D. Herzberg, T. Grahn, Steffen Ketelhut, M. Hackstein, R. D. Page, J. P. Revill, N. M. Lumley, Juha Sorri, R. Krücken, H. V. Watkins, C. Scholey, T. Pissulla, Marcus Scheck, S. Juutinen, Pauli Peura, D. T. Joss, M. Labiche, Peter M. Jones, Matti Leino, W. Rother, Raymond J. Carroll, Paivi Nieminen, Jan Sarén, Janne Pakarinen, Paul Greenlees, R. Julin, P. Maierbeck, and Ulrika Jakobsson

Subjects

Physics, Nuclear and High Energy Physics, medicine.anatomical_structure, ta114, Excited state, Nuclear Theory, Quadrupole, medicine, Physics::Atomic Physics, Atomic physics, Nuclear Experiment, Nucleus, Spectral line

Abstract

Lifetimes of the low-lying excited states in the very neutron-deficient nucleus ${}^{175}$Au have been measured by the recoil-distance Doppler-shift method using $\ensuremath{\gamma}$-ray spectra obtained with the recoil-decay tagging technique. Transition quadrupole moments and reduced transition probabilities extracted for this odd-$Z$ nucleus indicate the existence of three different shapes and the competition between collective and noncollective structures.

Published

2011

106. New developments on the recoil distance doppler-shift method

Author

T. Glasmacher, A. Dewald, Jan Sarén, R. Julin, Steffen Ketelhut, T. Pissulla, Pauli Peura, M. Nyman, Juha Sorri, D. Bazin, Paul Greenlees, D. Weisshaar, M. Hackstein, J. Jolie, Matti Leino, B. A. Brown, C. Fransen, P. Voss, T Konstaninopoulos, S. Juutinen, Alexandra Gade, A. Blazhev, Andreas Stolz, Thomas Baumann, A. Lagoyannis, Ulrika Jakobsson, K. Starosta, Paivi Nieminen, Aaron Chester, Juha Uusitalo, C. Scholey, Sotirios Harissopulos, P. Petkov, Peter M. Jones, W. Rother, Panu Ruotsalainen, and P. Rahkila

Subjects

Physics, History, Projectile, Nuclear Theory, Nuclear structure, Observable, Coulomb excitation, Computer Science Applications, Education, Nuclear physics, Recoil, Excited state, Coulomb, Physics::Accelerator Physics, Atomic physics, Nuclear Experiment, Beam (structure)

Abstract

Absolute transition probabilities are fundamental observables for nuclear structure. The recoil-distance-Doppler-shift (RDDS) technique, also called plunger technique, is a well established tool for the determination of these important experimental quantities via the measurement of lifetimes of excited nuclear states. Nowadays nuclear structure investigations are concentrated on exotic nuclei which are often produced with extremely small cross sections or with very low beam intensities. In order to use the RDDS technique also for the investigation of very exotic nuclei this method has to be adapted to the specific needs of these special reactions. This article gives an overview on recent RDDS measurements with the new differential plunger in combination with particle detectors and recoil spectrometers. These were done with projectile multistep Coulomb excitation at low beam energies (≈ 5 MeV/u) and at intermediate beam energies (≈ 100 MeV/u) using one step Coulomb excitations and knockout reactions.

Published

2010

107. A NEW PLUNGER DEVICE FOR INVESTIGATING THE EFFECTS OF DEFORMATION ON PROTON EMISSION RATES VIA LIFETIME MEASUREMENTS

Author

Rauno Julin, S. Juutinen, Michael Taylor, M. G. Procter, P. Rahkila, Panu Ruotsalainen, V. Twist, D. T. Joss, Sanna Stolze, Paul Greenlees, D. M. Cullen, A. McFarlane, Matti Leino, C. Fransen, A.J. Smith, Paivi Nieminen, C. Scholey, Pauli Peura, Juha Sorri, C. McPeake, Thomas Braunroth, B. Saygi, Janne Pakarinen, Jan Sarén, T. Grahn, Steffen Ketelhut, Juha Uusitalo, Peter M. Jones, E. Ellinger, Mikael Sandzelius, G. A. Alharshan, A. Dewald, P. A. Butler, Marcus Scheck, and Ulrika Jakobsson

Subjects

Plunger, education.field_of_study, Materials science, ta114, Proton, Population, Analytical chemistry, Separator (oil production), Deformation (meteorology), Nuclear physics, Beamline, Excited state, Proton emission, Nuclear Experiment, education

Abstract

A new plunger device has been designed and built to measure the lifetimes of unbound states in exotic nuclei beyond the proton drip-line. The device is designed to work in both vacuum and dilute-gas environments made possible through the introduction of a lowvoltage piezoelectric motors. The differential plunger for unbound nuclear states, DPUNS, will be used in conjunction with the gas-filled separator RITU and the vacuum separator MARA at the accelerator laboratory of the University of Jyvaskyla, Finland, to measure the lifetimes of excited states with low population cross-sections. This is achieved by eliminating the need for a carbon foil to isolate the helium gas of RITU from the beam line thus reducing the background from beam-foil reactions. The plunger will be used to address many key facets of nuclear structure physics with particular emphasis on the effect of deformation on proton emission rates.