The Super Separator Spectrometer <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" altimg="si1.gif" overflow="scroll"><mml:mrow><mml:msup><mml:mrow><mml:mi>S</mml:mi></mml:mrow><mml:mrow><mml:mn>3</mml:mn></mml:mrow></mml:msup></mml:mrow></mml:math> and the associated detection systems: SIRIUS &amp; LEB-REGLIS3

Déchery, F.; Savajols, H.; Authier, M.; Drouart, A.; Nolen, J.A.; Ackermann, D.; Amthor, A. M.; Bastin, B.; Berryhill, Adam; Boutin, D.; Cáceres, L.; Coffey, M. T.; Delferrière, O.; Dorvaux, O.; Gall, B.; Hauschild, K.; Hue, A.; Jacquot, B.; Karkour, N.; Laune, B.; Blanc, F. Le; Lecesne, N.; Лопез-Мартенс, А.; Lutton, F.; Manikonda, S.; Meinke, R.; Olivier, G.; Payet, J.; Piot, J.; Pochon, Olivier; Prince, V.; Souli, Mehdi; Stelzer, G.; Stödel, C.; Stodel, M.-H.; Sulignano, B.; Traykov, E.; Uriot, D.

doi:10.1016/j.nimb.2016.02.036

Cited by 18 publications

(11 citation statements)

References 6 publications

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“…Two complementary detection systems, SIRIUS and REGLISS, are being developed to detect reaction products. SIRIUS is a highly segmented focal plane detector to detect the implantation and decay of reaction products [80]. REGLIS involves a gas cell for stopping the reaction products followed by resonant ionization of the stopped atoms [80].…”

Section: The Futurementioning

confidence: 99%

The Synthesis of New Neutron-Rich Heavy Nuclei

Loveland

2019

Front. Phys.

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All the known isotopes of the elements Fm through Og are neutron-deficient relative to β-stability. In this contribution, I discuss two methods of producing more n-rich heavy nuclei, i.e., the use of radioactive nuclear beams (RNBs) and the use of multi-nucleon transfer (MNT) reactions. In the former case, I discuss recent studies of the interaction of 39,46 K with 181 Ta and their implications for the synthesis of more n-rich isotopes of Bh and Hs. In the case of MNT reactions, I discuss recent results for the reaction of 136 Xe with 208 Pb, 204 Hg + 198 Pt, and 136 Xe + 198 Pt. I compare measured distributions of the target-like fragments (TLFs) and projectile-like fragments (PLFs) with current models of MNT reactions.

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Section: The Futurementioning

confidence: 99%

The Synthesis of New Neutron-Rich Heavy Nuclei

Loveland

2019

Front. Phys.

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“…In-flight separation of fusion-evaporation products gives access to neutron-deficient isotopes in and near the N = Z and the proton drip lines as well as in the actinide and superheavy element (SHE) regions that can be used , e.g., for nuclear and laser spectroscopy studies. The in-gas laser ionization and spectroscopy (IGLIS) techniques will be applied at the Super Separator Spectrometer (S 3 ) facility in GANIL [1][2][3] and at the MARA (Mass Analysing Recoil Apparatus) facility in Jyväskylä [4,5], among others, to perform such studies.…”

Section: Introductionmentioning

confidence: 99%

“…Dye lasers as well as Ti:sapphire based solid state lasers are in use for spec- 35 troscopic investigations and as all-purpose resonant ionization laser ion source (RILIS) at hot cavity Isotope Separator on-line (ISOL) facilities [19][20][21]. This article investigates the individual characteristics of Dye and Ti:sapphire laser systems as main components of the laser 40 ion source and spectroscopic tool at the S 3 Low Energy Branch (LEB) facility. Thus, the performance of the two laser systems is evaluated in terms of the requirements for efficient and highresolution resonant laser ionization and spectroscopy experiments.…”

Section: Introductionmentioning

confidence: 99%

“…The IGLIS technique at the S 3 -LEB At the S 3 -LEB the fusion-evaporation residues, separated in-flight from the primary beam and preselected by S 3 [3], will 50 be stopped in a buffer gas cell placed at the spectrometer's focal plane for laser spectroscopy studies and experiments at low energies [2]. Laser ionization of the isotopes of interest 3 -LEB in SPIRAL2. Laser ionization will take place either in the gas cell or in the supersonic gas jet for higher selectivity and spectral resolution [16].…”

Section: Introductionmentioning

confidence: 99%

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Performance of Dye and Ti:sapphire laser systems for laser ionization and spectroscopy studies at S3

Raeder

Ferrer

Granados

et al. 2020

Nuclear Instruments and Methods in Physics Research Section B:

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The novel and sensitive In-Gas Laser Ionization Spectroscopy (IGLIS) technique enables high-precision laser spectroscopy of the heaviest elements and isotopes very far from stability that are produced in fusion-evaporation reactions at in-flight separators. Powerful and dedicated laser systems are required in these facilities to realize in-gas jet laser spectroscopy with optimal spectral resolution and efficiency. The performance with respect to the requirements for IGLIS studies at the low energy front-end of the Super Separator Spectrometer (S 3 ) at GANIL, France, of Dye and Ti:sapphire laser systems is investigated. In addition, a number of specific experimental cases on key isotopes of the elements Ag, Sn, Ac, and No are discussed in detail.

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“…This makes the technique ideal for studying the heavy-element region with high precision and efficiency at future radioactive ionbeam facilities such as e.g. S 3 at SPIRAL 2 [15,16]. Since stopping and extraction of isotopes is quasi element independent, the refractory elements, which are currently difficult to study with high-resolution spectroscopy at thicktarget ISOL facilities [17,18], can also be studied using this technique.…”

Section: Introductionmentioning

confidence: 99%

Design and commissioning of an ion guide system for In-Gas Laser Ionization and Spectroscopy experiments

Sels

Ferrer

Dockx

et al. 2020

Nuclear Instruments and Methods in Physics Research Section B:

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Radio-frequency (RF) ion guides, also known as Linear Paul Traps, are powerful devices to efficiently transport ion beams from high to low pressure regions while keeping good ion optical properties. A set of ion guides comprising three different RF quadrupole (RFQ) structures has been designed using ion-trajectory simulations to improve the performance of the In-Gas Laser Ionizations and Spectroscopy (IGLIS) technique currently under development at KU Leuven. Results of the commissioning tests for the total transport efficiency and transient time through the ion guides as well as the longitudinal energy spread and transverse emittance are found to be in agreement with ion trajectory simulations considering a realistic ion-atom interaction potential.

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The Super Separator Spectrometer S3 and the associated detection systems: SIRIUS & LEB-REGLIS3

Cited by 18 publications

References 6 publications

The Synthesis of New Neutron-Rich Heavy Nuclei

The Synthesis of New Neutron-Rich Heavy Nuclei

Performance of Dye and Ti:sapphire laser systems for laser ionization and spectroscopy studies at S3

Design and commissioning of an ion guide system for In-Gas Laser Ionization and Spectroscopy experiments

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