LISE++

The program LISE++ is designed to predict the intensity and purity of secondary ion beams for experiments using radioactive beams produced by In-flight separators. The LISE++ code also facilitates tuning experiments where its results can be quickly compared to on-line data. The program is constantly expanding and evolving using the feedback of users around the world.

The LISE++ name is borrowed from the well known evolution of the C programming language, and is meant to indicate that the program is no longer limited to a fixed configuration like it was in the original “LISE” program, but can be configured to match any type of device or add to an existing device using the concept of blocks. A very large amount of physics is incorporated in this program, from reaction mechanism models, cross section systematics, electron stripping models, energy loss models to beam optics, just to list a few. All the references for the calculations are directly accessible within the program itself (see the various option windows) and an user is encouraged to consult them for detailed information.

The LISE++ package includes configuration files for most of the existing fragment and recoil separators. Projectile fragmentation, fusion–evaporation, fusion–fission, Coulomb fission, abrasion–fission and two body nuclear reactions models are included in this program and can be used as the production reaction mechanism to simulate experiments at beam energies above the Coulomb barrier.

At the time of this writing, many “satellite” tools have been incorporated into the LISE++ framework, which are accessible with buttons on the main toolbar and include:

• Physical calculator
• Kinematics calculator
• Evaporation calculator
• Units converter
• Mathematical calculator
• The program PACE4 (fusion-evaporation code) by A.Gavron et all.
• Spectrometric calculator by J. Kantele
• The program CHARGE by Th. Stöhlker et al.
• The program GLOBAL by W. E. Meyerhof et al.
• The program BI (search for 2-dimentional peaks)
• MOTER by H.A.Thiessen et al.: raytracing code with optimization capabilities operating under MS Windows

• A1900 @ NSCL/MSU (USA)
• LISE @ GANIL (France)
• FRS @ GSI (Germany)
• BigRIPS & RIPS @ RIKEN (Japan)
• Accullina @ JINR (Russia) and etc

• MOCADI
• Beam TRANSPORT code
• COSY INFINITY

1. "LISE++: Radioactive beam production with in-flight separators", O.B.Tarasov and D.Bazin, NIM B (2008) 4657-4664
2. "Fusion–fission is a new reaction mechanism to produce exotic radioactive beams", O.B.Tarasov and A.C.C.Villari, NIM B 266 (2008) 4670-4673
3. "LISE++: design your own spectrometer", O.B.Tarasov and D.Bazin, Nuclear Physics A746 (2004) 411-414
4. "LISE++ development: application to low-energy fission of projectiles at relativistic energies", O.B.Tarasov, EPJ A25 (2005) 751
5. "Analysis of momentum distributions of projectile fragmentation products", O.B.Tarasov, Nuclear Physics A734 (2004) 536-540
6. "Development of the program LISE: application to fusion–evaporation", O.B.Tarasov and D.Bazin, NIM B204 (2003) 174-178
7. "The code LISE: a new version for 'Windows'", D.Bazin, O.B.Tarasov, M.Lewitowicz, O.Sorlin, Nuclear Physics A701 (2002) 661-665
8. "The program LISE: a simulation of fragment separators", D.Bazin, O.B.Tarasov,

M.Lewitowicz, O.Sorlin, NIM A482 (2002) 307-327

• LISE++