DREB2022 - Direct Reactions with Exotic Beams

Session

Poster session

28 Jun 2022, 16:20

Facultad de Ciencias de la Comunicación (University of Santiago de Compostela)

254. Cross sections of neutron-rich isotopes near N=50 in knock-out reactions

Serge Franchoo (Université Paris-Saclay (FR))

28/06/2022, 16:20

Poster

We present cross sections for neutron-rich copper (Z=29) to germanium (Z=32) isotopes in nucleon-removal reactions. The experiments were carried out at the Radioactive Isotope Beam Factory of the Riken laboratory during the Seastar campaign, where an incident beam of 238U at 345 MeV/u created a range of exotic nuclei in a beryllium target. These nuclei were sent through the Bigrips separator...

252. Effects of pairing through the intermediary continuum in a 2n transfer process

Gagandeep Singh (University of Padova & INFN Padova)

28/06/2022, 16:25

Poster

Two particle transfer reactions provide realistic tools to understand reaction mechanisms due to
the enhanced matrix elements connecting systems of neighbouring nuclei differing by two units. The
resultant pairing interactions in the (A+2) nuclei, if present in a weakly bound system near the drip
lines, can develop diffused Borromean halos as the Cooper pair of the nucleons can scatter into...

239. Measurement of the single-particle strength along the calcium isotopic chain using quasi-free scattering reactions

Ryo Taniuchi (Department of Physics, University of York)

28/06/2022, 16:30

Poster

Several properties of atomic nuclei are known to be sensitive to the neutron-to-proton (isospin) asymmetry. Isotopic chains that extend from the valley of beta-stability towards the drip lines have now become accessible with the advent of radioactive-ion beam facilities. In particular, the evolution of the single-particle strength as a function of isospin has been the subject of experimental...

245. First results of the analysis of the reaction 22 Mg(α,α) 22 Mg

Daniel Regueira Castro (Universidade de Santiago de Compostela (ES))

28/06/2022, 16:35

Poster

In this work, I will present the preliminary results of the study of the resonance states in 26 S by
elastic scattering of 22 Mg(α,α) 22 Mg. Resonances in 26 S are important to determine the reaction rate of the 22 Mg(α,p) 25 Al [1] and 25 Al(p,γ) 26 Si. The study of the resonances was performed using the active target ATTPC [2] with a re-accelerated radioactive beam produced in the ReA3...

248. Investigating Short-Range Correlations in exotic nuclei at R3B using inverse kinematics

Enis Lorenz (Technische Universität Darmstadt)

28/06/2022, 16:40

Poster

Short-Range Correlations (SRC) are two-body components of the nuclear wave function with high relative momentum and low center-of-mass momentum relative to the Fermi momentum, k$_F$. These high-momentum nucleons, which are absent in a simple Fermi gas model, are formed as temporary closed-proximity nucleon pairs with high density, several times the nuclear saturation density. Studying the...

249. Study of multi-nucleon knockout reactions of exotic nuclei in the region of Sn

Martina Feijoo Fontán

28/06/2022, 16:45

Poster

The experimental data collected during the S515 experiment performed by R3B collaboration at GSI/FAIR represent a great opportunity to obtain nucleon knockout cross sections of exotic nuclei around 132Sn. These cross sections can be used to extract information about short-range correlations (SRCs), which emerge from pairs of nucleons having large relative momentum compared to their...

250. Quasi-free (p,2p) reactions in inverse kinematics for studying the fission yield dependence on temperature and its implication in the stellar nucleosynthesis r-process

antía graña gonzález

28/06/2022, 16:50

Poster

Although the importance of the fission fragment treatment in stellar nucleosynthesis r-process calculations is well established, an aspect of the phenomenological descriptions of fission that has so far remained relatively unexplored in the r-process is the dependence of the fission yields on the excitation energy or temperature of the compound nuclei [1]. Moreover, the fission yields and...

190. Development and characterization of new position-sensitive Si strip detectors for direct reactions at CENS

Dr Xesus Pereira-Lopez (Center for Exotic Nuclear Studies (CENS), Institute for Basic Science (IBS))

28/06/2022, 16:55

Poster

Direct reaction experiments in inverse kinematics are one of the best suited tools to probe a broad range of nuclear properties, providing great insight into the nuclear structure of exotic nuclei and allowing the measurement of reactions relevant to many astrophysical scenarios. In order to fully exploit RAON (RIB facility currently under construction in Korea), the CENS group has devoted a...

259. Measurements of the neutron-removal cross sections of neutron-rich Sn isotopes at R3B setup.

Eleonora Kudaibergenova (TU Darmstadt)

28/06/2022, 17:00

Poster

The equation of state (EoS) plays a key role in many different aspects of modern physics, being fundamental for understanding the structure of nuclear matter, the properties of neutron stars, core-collapse supernova explosions, and the synthesis of heavy elements. While the properties of proton-neutron symmetric matter are relatively well known, the study of asymmetric matter via properties of...

265. Continuum-Discretized Coupled Channel description of (d,p) reactions with nonlocal optical potentials

Natalia Timofeyuk

28/06/2022, 17:05

Poster

Treating deuteron breakup in (d,p) reaction requires solving three-body Schrodinger equation with nucleon optical potentials. According to a general theory of optical potentials they should be nonlocal. We present two approximate methods to account for this nonlocality within the Continuum-Discretized Coupled Channel (CDCC) method: (1) we derive a leading-order local-equivalent CDCC model and...

266. Three-nucleon force in (d,p) reactions

Natalia Timofeyuk

28/06/2022, 17:10

Poster

The three-nucleon (3N) force is important for understanding the structure and dynamics of atomic nuclei and nuclear matter from first principles and it is routinely used in many ab-initio structure calculations. It is also included in calculations describing reactions involving nuclei that can be modelled as few-body systems. First calculations of elastic scattering with ab-initio potentials...

274. Performance of the CALIFA detector during the experiment s467 on the Ca isotopic chain

Christian Suerder

28/06/2022, 17:15

Poster

In Feb. 2020 an experiment to study single particle properties around the Ca isotopic chain, reaching from the proton-rich to the neutron-rich side, was performed with the versatile R3B setup at GSI, Darmstadt, Germany. The secondary cocktail beam included neutron-rich isotopes from Cl to Cr. This experiment, part of the R3B Phase 0 program at FAIR, allowed for exclusive studies in inverse...

279. Integration of a Resistive Plate Chamber for Precise Measurement of High-Momentum Protons in Short Range Correlations

Manuel Xarepe

28/06/2022, 17:20

Poster

The first short-range correlation (SRC) experiment with an exotic nucleus (16C) will be performed in the Spring 2022 within the R3B collaboration as part of the FAIR Phase-0 experimental program. The study of SRC pairs at high relative momentum and low center-of-mass momentum relative to the Fermi momentum (kF) gives insight into the nucleon-nucleon interactions of cold, dense matter similar...

290. Investigating cross-shell interactions at the N=28 shell closure through 47K(d,p)48K with MUGAST+AGATA+VAMOS.

Charlie James Paxman (University of Surrey (GB))

28/06/2022, 17:25

Poster

The region around the magic numbers $N=28$ and $Z=20$ is of great interest in nuclear structure physics. Moving away from the doubly-magic isotope $^{48}$Ca, in the neutron-rich direction there is evidence of an emergent shell gap at $N=34$ [1], and in the proton-deficient direction, the onset of shape deformation suggests a weakening of the $N=28$ magic number [2]. The $^{47}$K(d,p)$^{48}$K...

251. Study of (p,2p) events at the CALIFA calorimeter in knockout induced fission of 238U

Mr Gabriel García Jiménez (University of Santiago de Compostela - IGFAE)

28/06/2022, 17:30

Poster

Nuclear fission has been used as a tool for the study of nuclear propierties since its discovery in 1939. A new approach was performed in the context of the R3B collaboration, at the FAIR facilities, in which knockout reactions were used to induce fission in ${}^{238}$U, which will allow to characterise the excitation energy of the process. The CALIFA calorimeter, a key part of the set-up,...

179. A new scattering chamber for precision experiments on the heavy-ion reaction cross sections at the accelerator DC-60 (Nur-Sultan, Kazakhstan) at low energies

Кайрат Кутербеков

28/06/2022, 17:35

Poster

Within the framework of the long-term program of cooperation between JINR, ENU and Institute of Nuclear Physics (INP), joint experiments connected with the peculiarities of the interaction of lithium nuclei (6-9,11Li) at energies near the Coulomb barrier will be conducted on the U-400M cyclotron of G.N. Flerov Nuclear Reaction Laboratory (FLNR JINR) and on the DC-60 accelerator (Nur-Sultan) of...

180. Neutron transfer reaction 181Ta(18O, 19O)

Aidos Azhibekov (Joint Institute for Nuclear Research), Кайрат Кутербеков

28/06/2022, 17:40

Poster

The study of nucleon transfer reactions is an important area of heavy ion physics because these reactions provide the possibilities for the synthesis of new exotic nuclei. There are various methods of production of light exotic neutron-rich nuclei (light nuclei with an unusually high number of neutrons). Multi-nucleon transfer reactions are one of the tools to access neutron-rich oxygen...

283. Investigation of shape evolution in 110Sn through Coulomb excitation

Joochun Park (Institute for Basic Science (KR))

28/06/2022, 17:45

Poster

The systematics of E2 transition probabilities along the Sn isotopic chain has received much attention in both experiment and theory. One of the latest Monte Carlo shell models suggested dynamic shape changes in the Sn isotopes and their excited states, while addressing the enhancement of B(E2) values towards $^{100}$Sn. A safe-energy Coulomb excitation of $^{110}$Sn was performed with the...

238. Breakup dynamics of s-wave neutron-halo systems in zero binding energy limit

Bahati Mukeru (University of South Africa (UNISA))

Poster

We present an analysis of the 11Be+208Pb and 37Mg+208Pb breakup reactions in the projectile zero binding energy limit. The objective is to verify whether finite and converged breakup observables can be obtained for an s-wave neutron-halo system when its ground-state binding energy approaches zero. Applying the CDCC formalism, it is shown that for both projectiles, finite and converged breakup...

242. Changes in polarization dictate necessary approximations for modeling electronic de-excitation intensity: an application to X-ray emission

Nicole Njinang (The University of Yaounde I), Dr Sidrex Boris Domguia Gatchuessi (The University of Yaounde I)

Poster

We systematically investigate the underlying relations among different levels of approximation for simulating electronic de-excitations, with a focus on modeling X-ray emission spectroscopy (XES). Using Fermi's golden rule and explicit modeling of the initial, core-excited state and the final, valence-hole state, we show that XES can be accurately modeled by using orbital optimization for the...

276. Cluster structrues in the mirror nuclei 19Ne and 19F

MA Kai (Peking University)

Poster

Cluster structures in $\alpha$ conjugate systems with a particle hole have been observed in many nuclei. Our work studies $^{19}$Ne and $^{19}$F, which are $5\alpha$ systems with a neutron or a proton hole, by using direct reaction experiments. As a pair of mirror nuclei, $^{19}$Ne and $^{19}$F have many similar properties, which gives a motivation to study them at the same time....

286. Discrete Relativity : a Prediction in Nuclear Physics

Frederic Lassiaille

Poster

Null four-vectors of General Relativity (GR), suggest mathematical developments. Two of them are presented. It is reminded that in GR a privileged frame exists, which is the frame in whch time elapses the most. It is showned that a particle generates locally a space-time deformation, which transforms this privileged frame according to the boost associated with its velocity in this frame. From...

281. Exploring Neutron stars EoS with coherent π0 π0 photoproduction at A2@MAMI

Mihai Mocanu (University of York, UK)

Poster

Recent measurement of coherent π0 photoproduction on Pb lead to a most accurate determination of the neutron skin, constraining nuclear matter Equation of State (EoS) at around ρ~1ρ0. A natural next step is elucidating the nuclear EoS at higher densities to tune our understanding of the most violent process in the Universe - neutron stars mergers. It was demonstrated that at densities above...

176. Microscopic collective inertial masses for nuclear reaction in the presence of nucleonic effective mass

Dr Kai Wen (University of Tsukuba, Japan)

Poster

In this talk I would like to introduce to you our study on the collective inertial mass in low-energy nuclear reactions.The inertial mass coefficients with respect to translational, relative and rotational nuclear collective motions are calculated, based on the adiabatic self-consistent collective coordinate (ASCC) method. The impact of the time-odd component of the mean-field potential on the...

212. Multi α clustering states in 20Ne

Prof. Yanlin Ye (Peking University)

Poster

Multi $\alpha$ clustering structure in nuclei is an attractive topic in nuclear physics, especially the $\alpha$ condensates. An experiment for $^{12}$C($^{16}$O,$^{20}$Ne*) $^8$Be multi-nucleon transfer reaction and cluster-decay was performed at China Institute of Atomic Energy(CIAE) at a beam energy of 6 MeV/u in 2021. A specially designed telescope system played an essential role to...

219. Quarteting in N=Z nuclei

Michelangelo Sambataro

Poster

The phenomenon of quarteting in even-even $N=Z$ nuclei has a
long history in nuclear structure [1].
In a recent work [2] we have highlighted on analytic grounds
the key role played by the isovector
pairing in such a phenomenon. We have indeed
shown that $\alpha$-like quartets, i.e., correlated four-body structures
made by two protons and two neutrons, do represent the...

277. Search for novel $\beta^-$-delayed proton decay in $^{11}$Be

Jason Surbrook (Michigan State University & Facility for Rare Isotope Beams)

Poster

In 2014, an accelerator mass spectrometry measurement counted a surprisingly large number of $^{10}$Be atoms in a sample of $^{11}$Be decay products, inferring the $^{11}$Be$\rightarrow^{10}$Be decay branch to be 9(1) ppm. The presence of $^{10}$Be can be interpreted as the first evidence of the never before observed $\beta^-$-delayed proton decay. A measurement of the low-energy...

236. The Coulomb-nuclear interference in the halo breakup

Prof. Lauro Tomio (Instituto de Física Teórica, UNESP)

Poster

By following a few previous studies considering the reaction dynamics processes that occur between weakly-bound halo nuclei projectiles on heavy targets [1], we report here a more recent study, in which the Coulomb-nuclear interference is investigated as a function of the projectile ground-state binding energy [2]. For that, we take into account a detailed analysis done for the 8Li+12C and...

222. Transfer reactions with Isomeric beams for Nuclear Astrophysics

Sergio Almaraz-Calderon

Poster

The development of high-quality isomeric beams opens the possibility to probe the influence of nuclear isomers in stellar scenarios and provide experimentally constrained parameters to astrophysical reaction rates. Such is the case of the low-lying isomers along the rp-process nucleosynthesis path, and on nucleosynthesis of Galactic $^{26}$Al.
In this talk, I’ll discuss recent experimental...

253. “Piston” mechanism in a time-dependent two-level model*

Augusto Macchiavelli

Poster

The “piston” mechanism concept [1] offers a unique motivation to use (p,2p) reactions to systematically study the evolution of neutron-neutron correlations in exotic neutron-rich nuclei. It seems clear that such a program will feature prominently in current and future rare-isotopes facilities worldwide.

In this work [2] we analyze the specific case of the high-energy one-proton knockout...