Yazar "Akkus B." seçeneğine göre listele
Listeleniyor 1 - 3 / 3
Sayfa Başına Sonuç
Sıralama seçenekleri
Öğe Delayed backbending in the ?h9/2 band of 187Ir(American Physical Society, 2003) Danchev M.; Balabanski D.L.; Yigitoglu I.; Akkus B.; Beausang C.W.; Bostan M.; Hartley D.J.High-spin states of 187Ir have been populated in the 176Yb(15N, 4n) reaction and measured with the YRAST Ball spectrometer. The ?h9/2 rotational band has been extended beyond the first alignment crossing, which was found at rotational frequency ??c ? 0.39 MeV. Two different scenarios for describing this crossing are considered: The alignment of an h9/2 proton or i13/2 neutron pair and it is concluded that a proton band crossing is more likely. A systematic study of the rotational alignment crossings in the ?h9/2 bands in the N=104, 106, 108 isotopes of 73Ta, 75Re, 77Ir, and 79Au is presented.Öğe Delayed backbending in the [Formula Presented] band of [Formula presented](2003) Danchev M.; Balabanski D.L.; Yigitoglu I.; Akkus B.; Beausang C.W.; Bostan M.; Hartley D.J.High-spin states of [Formula presented] have been populated in the [Formula presented] reaction and measured with the YRAST Ball spectrometer. The [Formula Presented] rotational band has been extended beyond the first alignment crossing, which was found at rotational frequency [Formula Presented]. Two different scenarios for describing this crossing are considered: the alignment of an [Formula Presented] proton or [Formula Presented] neutron pair and it is concluded that a proton band crossing is more likely. A systematic study of the rotational alignment crossings in the [Formula Presented] bands in the [Formula Presented] isotopes of [Formula presented] and [Formula presented] is presented. © 2003 The American Physical Society.Öğe Turkish accelerator center: The status and road map(Joint Accelerator Conferences Website (JACoW), 2014) Aksoy A.; Cakir O.; Duran Yildiz H.; Yavas O.; Akkus B.; Ozkorucuklu S.; Algin E.Turkish Accelerator Center (TAC) Project has started with support of the Ministry of Development (MD) of Turkey under the coordination of Ankara University. TAC is an inter-university collaboration with 12 Turkish Universities. An IR FEL facility (TARLA) based on Sc linac with 15-40 MeV energy under construction in Ankara as the first facility of TAC. It is expected that the TARLA facility will be commissioned in 2017. In addition to the TARLA, it is planned that Turkish Accelerator Center will include a third generation synchrotron radiation facility based on 3 GeV electron synchrotron (TAC SR), a fourth generation SASE FEL facility based on 3 GeV electron linac (TAC SASE FEL), a multi-purpose proton accelerator facility with 3 MeV - 2 GeV beam energy (TAC PAF) and an electron-positron collider as a super charm factory (TAC PF) Construction phase of the proposed GeV scale accelerator facilities will cover next decades. In this presentation, main goals and road map of Turkish Accelerator Center will be explained. Copyright © 2014 CC-BY-3.0 and by the respective authors.
