The knockout reaction of 15C on a 9Be target at intermediate energies

The formation of oxide structures on single crystal films of metals has been investigated using the REMEDIE system (for Reflection Electron Microscopy and Electron Diffraction at Intermediate Energies) (1). Using this instrument scanning images can be obtained with a 5 to 15keV incident electron beam by collecting either secondary or diffracted electrons from the crystal surface (2). It is particularly suited to studies of the present sort where the surface reactions are strongly related to surface morphology and crystal defects and the growth of reaction products is inhomogeneous and not adequately described in terms of a single parameter. Observation of the samples has also been made by reflection electron diffraction, reflection electron microscopy and replication techniques in a JEM-100B electron microscope.A thin single crystal film of copper, epitaxially grown on NaCl of (100) orientation, was repositioned on a large copper single crystal of (111) orientation.

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SPIN EFFECTS IN pp → π+d REACTION AT INTERMEDIATE ENERGIES

Le Journal de Physique Colloques ◽

10.1051/jphyscol:1985243 ◽

1985 ◽

Vol 46 (C2) ◽

pp. C2-375-C2-386

Author(s):

T. S. Bhatia

Keyword(s):

Spin Effects ◽

Intermediate Energies

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Proceedings of the e+ e- Physics at Intermediate Energies Workshop

10.2172/787222 ◽

2001 ◽

Author(s):

Roxanne V Jones

Keyword(s):

Intermediate Energies

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Manifestation of the divergence between antisymmetrized-molecular-dynamics and container pictures of 9Be via 9Be(p,pn)8Be knockout reaction

Physics Letters B ◽

10.1016/j.physletb.2021.136466 ◽

2021 ◽

pp. 136466

Author(s):

Nguyen Tri Toan Phuc ◽

Mengjiao Lyu ◽

Yohei Chiba ◽

Kazuyuki Ogata

Keyword(s):

Molecular Dynamics ◽

Knockout Reaction

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Charge exchange reactions on medium and heavy mass targets at intermediate energies

Modern Physics Letters A ◽

10.1142/s0217732320500455 ◽

2019 ◽

Vol 35 (08) ◽

pp. 2050045

Author(s):

Pardeep Singh ◽

Monika Singh ◽

Neha Rani

Keyword(s):

Charge Exchange ◽

Cross Sections ◽

Energy Charge ◽

Impulse Approximation ◽

Mass Region ◽

Intermediate Energy ◽

Exchange Reactions ◽

Plane Wave Impulse Approximation ◽

Text Type ◽

Intermediate Energies

The nuclear isotopic structure can be understood easily via the intermediate-energy charge exchange reactions of (p, n) and [Formula: see text]He, [Formula: see text] type. In the current contribution, we present some results for charge exchange reactions induced by 3He on targets lying in mass region [Formula: see text] within the theoretical framework of plane wave impulse approximation (PWIA) and distorted wave impulse approximation (DWIA). Here, the recoil effects in PWIA have also been considered. Particularly, the angular distributions and the unit cross-sections have been calculated and compared with the available data. Further, the importance of inclusion of the exchange contribution in these reactions is also considered, which eventually enhance the matching with data.

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On the study of rotational effects in mass asymmetric colliding nuclei at intermediate energies

Nuclear Physics A ◽

10.1016/j.nuclphysa.2018.03.003 ◽

2018 ◽

Vol 973 ◽

pp. 149-163 ◽

Cited By ~ 2

Author(s):

Kamaldeep Kaur ◽

Suneel Kumar

Keyword(s):

Intermediate Energies

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Processes of hypernuclei formation in relativistic ion collisions

EPJ Web of Conferences ◽

10.1051/epjconf/201817113001 ◽

2018 ◽

Vol 171 ◽

pp. 13001

Author(s):

Alexander Botvina ◽

Marcus Bleicher

Keyword(s):

Experimental Research ◽

Statistical Models ◽

Low Temperatures ◽

Particle Physics ◽

Broad Distribution ◽

High Energies ◽

Intermediate Energies ◽

Ion Collisions ◽

High And Low Temperatures

The study of hypernuclei in relativistic ion collisions open new opportunities for nuclear and particle physics. The main processes leading to the production of hypernuclei in these reactions are the disintegration of large excited hyper-residues (target- and projectile-like), and the coalescence of hyperons with other baryons into light clusters. We use the transport, coalescence and statistical models to describe the whole reaction, and demonstrate the effectiveness of this approach: These reactions lead to the abundant production of multi-strange nuclei and new hypernuclear states. A broad distribution of predicted hypernuclei in masses and isospin allows for investigating properties of exotic hypernuclei, as well as the hypermatter both at high and low temperatures. There is a saturation of the hypernuclei production at high energies, therefore, the optimal way to pursue this experimental research is to use the accelerator facilities of intermediate energies, like FAIR (Darmstadt) and NICA (Dubna).

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