version 7.5

 

         

 

lise.nscl.msu.edu
http:"//lise.nscl.msu.edu

East Lansing
September
-2005

How to download LISE++

As with LISE, LISE++ is distributed freely and is accessible through ftp-servers in East Lansing (http"//lise.nscl.msu.edu/download) and Dubna (ftp://http:"//lise.nscl.msu.edu/). Dubna ftp-server does not support Netscape. Contents of the LISE ftp site and detailed information about downloadable files can be found in http"//lise.nscl.msu.edu/downloadreadme.

 LISE++ 7.5 documentation is available through

East Lansing, USA (NSCL/MSU) Dubna, Russia (FLNR/JINR)
PDF PDF
DOC DOC
  "DOC" - MS Word 2000

 

Contents:

 

1. Introduction

2. De-excitation process

2.1. The break-up channel in the evaporation cascade

2.1.1. The limiting temperature as a function of mass number

2.2. Dissipation effects in fission

2.3. Evaporation calculator modifications

3. Fission barriers

3.1. The Fission barrier dialog

3.2. ETFSI and experimental fission barriers

3.3. Calculation models (#0,1,2)

3.3.1. Shell corrections

3.3.2. Odd-Even corrections

3.4. Fission barrier plot

3.5. Influence of corrections for fission barriers on abrasion-fission cross-sections

4. Secondary reactions in target

4.1. Reexamination of secondary reactions calculation procedure

4.1.1. Dependence on the distribution dimension (NPevap)

4.1.2. The "Secondary reactions" dialog modification

4.1.3. Determination of the region of nuclei for secondary reactions calculations

4.1.4. Revision of optimal target thickness calculations for SR mode

4.2. Calculation of secondary reaction contributions to fragments with zero primary production cross-section

4.2.1. Secondary Reactions plots: SR coefficients & reduced cross-sections

4.3. SR calculation speed

4.3.1. Acceleration filters for secondary reactions calculations

5. Abrasion-Fission

5.1. Three excitation energy regions AF model

5.1.1. Abrasion-Fission dialog

5.1.2. Fission excitation function

5.1.3. Calculation of final fission fragment production

5.1.4. Additional settings

5.2. Kinematics

5.2.1. Production of 100Zr

5.2.2. Angular acceptance

5.2.3. Thick target

5.3. Abrasion-Fission plots

5.3.1. New plot options

5.4. Abrasion-Fission settings discussions

5.4.1. Excitation energy of fission fragment (TXE)

5.4.2. Excitation energy region (EER) boundaries

5.4.3. Excitation energy per abraded nucleon for Abrasion-Ablation

5.4.4. Dissipation effects in fission

5.4.5. Break-up de-excitation channel

5.4.6. Fission barrier

5.4.7. Cross-section suppression coefficient

5.4.8. Restore previous AF settings

5.5. Secondary reactions for Abrasion-Fission

5.6. Setting up LISE to calculate yield of AF products through the spectrometer

5.6.1. Experiment settings

5.6.2. Abrasion-Fission settings

5.6.3. Spectrometer tuning for the fragment of interest

5.6.4. Yield calculation

5.6.5. Optimum target

5.6.6. Secondary reactions

5.6.7. Cleaning

5.6.8. Charge states

5.6.9. Go to more exotic case of 83Zn

5.6.10. Examples

5.7. LISE’s options modifications connected with the AF mechanism

5.7.1. New transmission parameter "Sum of reactions"

5.7.2. User cross-section file

5.7.3. Transmission result file

5.8. INC fission

5.8.1. Recommended EER parameters for light targets in the LISE++ Abrasion-Fission model

5.9. Comparison with experimental data

5.9.1. Total fission cross-sections of 238U at relativistic energies

5.9.2. 208Pb(1AGeV) + p,d

5.9.3. 238U(1AGeV) + Pb

5.9.4. 238U(750AMeV) + Be

5.9.5. 238U(1AGeV) + p

6. New utilities

6.1. User cross-section analysis using Abrasion-Ablation model

6.1.1. AA parameters corresponding to EPAX

6.2. Optimum charge state combination

6.3. Charge state combination calculation for the optimal target thickness utility

6.3.1. Target optimization options

6.3.2. Optimal target searching methods

6.4. Rate & transmission calculation batch mode

6.5. Target and wedge optimization

6.5.1. Secondary Reactions contribution option

6.5.2. "Keep value" parameter

6.5.3. Target and wedge optimization for charge states

6.5.4. Wedge-shape and curved profile degraders properties

6.5.5. Setting discussions

7. Masses. AME2003

7.1. New mass excess files in the LISE package

7.2. "Unknown" - new type of isotope designation for the table of nuclides

7.2.1. Particle bound, quasi bound and unbound nuclei

7.2.2. How to load information from the user mass excess file in the navigation scheme

7.2.3. Modifications in the database plot

8. LISE++ block structure development

8.1. New material block: FaradayCup

8.2. Append blocks in the current open configuration from other LISE files

9. Different

9.1. User cross-section file

9.1.1. User cross-section file: reaction property

9.1.2. User file of reduced cross-sections

9.1.3. CS files in LISE++ package

9.2. Curved profile degrader modifications

9.3. Logotypes and references

9.4.  2D-plots: contours & projections

9.4.1. Contour dialog

9.4.1.1. Window and contour projections on an axis for 2D Cross-section plot

9.5. Fission channel for the fusion-evaporation excitation function plot

9.6. Abrasion-Ablation: fast mode for heavy projectiles

9.7. The "About" dialog modifications

9.8. PACE4: User's limits for Angular and Energy distributions of residues

9.9. Gas density dialog

9.10. Block labels for the transport envelope

9.11. Drift block

9.12. Compound targets for AA calculations, fusion-residues and fission reactions

9.13. Choice of horizontal axis for 2D-plots

9.14. Version numbers

9.15. LISE user statistics

10. User requests and bugs report

10.1. Corrections

10.2. User requests

11. Next steps development

11.1. First priority

Long-term

Short-term

11.2. Second priority task

11.3. Third priority task

Acknowledgements

References

 

 

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