(no subject)

From: Joel DeWitt <joel.m.dewitt_at_gmail.com>
Date: Thu, 21 Apr 2011 12:34:09 -0500

Gecko/20110303 Lightning/1.0b2 Thunderbird/3.1.9
MIME-Version: 1.0
To: FLUKA <fluka-discuss_at_fluka.org>
Subject: Re: IONTRANS card
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Sorry; I forgot to attach my original input file that produced the error
I described. I'm using fluka2011.2.2 and Flair 0.9.3.

Best regards,
Joel DeWitt
Oklahoma State University
USA

On 4/20/2011 11:39 AM, Joel DeWitt wrote:
> fluka-discuss:
>
> My last attempt to use a heavy ion beam failed with the WHAT(3) of the
> EVENTYPE card being obsolete. The error message suggested that I use
> the IONTRANS card instead, but the job bombs with a blank .err file.
> The manual says that nuclear interactions are simulated by default
> now--does this mean that I can get rid of the EVENTYPE and IONTRANS
> cards now? I've attempted to use both cards switched on as well as only
> IONTRANS, but the job still bombs with no apparent indication of the
> problem. Any suggestions?
>
> Best regards,
> Joel DeWitt
> Oklahoma State University
> USA
>
>
>

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TITLE
BB4 986 MeV/n 16-O, H2O
ASSIGNMA BLCKHOLE BLKHOLE
ASSIGNMA VACUUM VAC
DEFAULTS
NEW-DEFA
* Use scanned area for beam width: SQRT(2.956 cm2) = 1.72 cm
BEAM -.986 -.12431 0.0 1.72 1.72
1.0HEAVYION
HI-PROPE 8. 16.
EVENTYPE 2. DPMJET
BEAMPOS 0.0 0.0 -100. 0.0 0.0
GEOBEGIN
COMBNAME
     0 0 H2O
SPH BLK 0.0 0.0 0.0 10000.0
RPP VOI -2000.0 2000.0 -2000.0 2000.0 -2000.0 2000.0
* CR-39, front (0.05 cm), use scanned area
RPP CR3900 -0.86 0.86 -0.86 0.86 0.0 0.05
* Water, 5 g/cm2 (1.0 g/cm3, 5.0 cm)
RPP H2O05 -5.0 5.0 -5.0 5.0 0.06 5.06
* CR-39, 5 g/cm2
RPP CR3905 -0.86 0.86 -0.86 0.86 5.07 5.12
* Water, 10 g/cm2
RPP H2O10 -5.0 5.0 -5.0 5.0 5.13 10.13
* CR-39, 10 g/cm2
RPP CR3910 -0.86 0.86 -0.86 0.86 10.14 10.19
* Water, 15 g/cm2
RPP H2O15 -5.0 5.0 -5.0 5.0 10.20 15.20
* CR-39, 15 g/cm2
RPP CR3915 -0.86 0.86 -0.86 0.86 15.21 15.26
* Water, 20 g/cm2
RPP H2O20 -5.0 5.0 -5.0 5.0 15.27 20.27
* CR-39, 20 g/cm2
RPP CR3920 -0.86 0.86 -0.86 0.86 20.28 20.33
* Water, 30 g/cm2 (1.0 g/cm3, +10.0 cm)
RPP H2O30 -5.0 5.0 -5.0 5.0 20.34 30.34
* CR-39, 30 g/cm2
RPP CR3930 -0.86 0.86 -0.86 0.86 30.35 30.40
END
BLKHOLE 5 +BLK -VOI
* Front detector
PNTD00 5 +VOI +CR3900
* 5 g/cm2 water
Water05 5 +VOI +H2O05
* 5 g/cm2 detector
PNTD05 5 +VOI +CR3905
* 10 g/cm2 water
Water10 5 +VOI +H2O10
* 10 g/cm2 detector
PNTD10 5 +VOI +CR3910
* 15 g/cm2 water
Water15 5 +VOI +H2O15
* 15 g/cm2 detector
PNTD15 5 +VOI +CR3915
* 20 g/cm2 water
Water20 5 +VOI +H2O20
* 20 g/cm2 detector
PNTD20 5 +VOI +CR3920
* 30 g/cm2 water
Water30 5 +VOI +H2O30
* 30 g/cm2 detector
PNTD30 5 +VOI +CR3930
* System
VAC 5 +VOI -CR3900 -CR3905 -CR3910 -CR3915 -CR3920 -CR3930
-H2O05 -H2O10
                -H2O15 -H2O20 -H2O30
END
GEOEND
* 276 Water liquid H2_O
* Chemical Formula: H -- O -- H
MATERIAL 1.0 WATER
COMPOUND 2.0 HYDROGEN 1.0 OXYGEN WATER
* GR, 5 g/cm2
ASSIGNMA WATER Water05
* GR, 10 g/cm2
ASSIGNMA WATER Water10
* GR, 15 g/cm2
ASSIGNMA WATER Water15
* GR, 20 g/cm2
ASSIGNMA WATER Water20
* GR, 30 g/cm2
ASSIGNMA WATER Water30
* CR-39, front, modeled as water
ASSIGNMA WATER PNTD00
* CR-39, 5 g/cm2
ASSIGNMA WATER PNTD05
* CR-39, 10 g/cm2
ASSIGNMA WATER PNTD10
* CR-39, 15 g/cm2
ASSIGNMA WATER PNTD15
* CR-39, 20 g/cm2
ASSIGNMA WATER PNTD20
* CR-39, 30 g/cm2
ASSIGNMA WATER PNTD30
* System
USRBIN 10.0 ENERGY -21. 5. 5. 30.40Energy
USRBIN -5. -5. 0.0 100.0 100.0 100.0&
* CR-39, front (1 LET bin width x 100 charge bin width / 2.956 cm2)^-1 =
0.02956
* Min1 = CR-39 PNTD threshold (keV/um); Max1 = LET saturation of CR-39 PNTD
* Min2 and Max2 encompass charge range of interest
USRYIELD 2223.0 HEAVYION -22. VAC PNTD00
0.02956FLUKA00
USRYIELD 1500. 5.0 1495. 100.5 0.5 2703.&
* CR-39, 5 g/cm2
USRYIELD 2223.0 HEAVYION -23. VAC PNTD05
0.02956FLUKA05
USRYIELD 1500. 5.0 1495. 100.5 0.5 2703.&
* CR-39, 10 g/cm2
USRYIELD 2223.0 HEAVYION -24. VAC PNTD10
0.02956FLUKA10
USRYIELD 1500. 5.0 1495. 100.5 0.5 2703.&
* CR-39, 15 g/cm2
USRYIELD 2223.0 HEAVYION -25. VAC PNTD15
0.02956FLUKA15
USRYIELD 1500. 5.0 1495. 100.5 0.5 2703.&
* CR-39, 20 g/cm2
USRYIELD 2223.0 HEAVYION -26. VAC PNTD20
0.02956FLUKA20
USRYIELD 1500. 5.0 1495. 100.5 0.5 2703.&
* CR-39, 30 g/cm2
USRYIELD 2223. HEAVYION -27. VAC PNTD30
0.02956FLUKA30
USRYIELD 1500. 5.0 1495. 100.5 0.5 2703.&
* CR-39, front, dose (GeV/g/ion)
USRBIN 10. DOSE 28. 0.86 0.86 0.05D00
USRBIN -0.86 -0.86 0.0 1. 1. 1.&
* CR-39, 5 g/cm2, dose
USRBIN 10. DOSE 29. 0.86 0.86 5.12D05
USRBIN -0.86 -0.86 5.07 1. 1. 1.&
* CR-39, 10 g/cm2, dose
USRBIN 10. DOSE 30. 0.86 0.86 10.19D10
USRBIN -0.86 -0.86 10.14 1. 1. 1.&
* CR-39, 15 g/cm2, dose
USRBIN 10. DOSE 31. 0.86 0.86 15.26D15
USRBIN -0.86 -0.86 15.21 1. 1. 1.&
* CR-39, 20 g/cm2, dose
USRBIN 10. DOSE 32. 0.86 0.86 20.33D20
USRBIN -0.86 -0.86 20.28 1. 1. 1.&
* CR-39, 30 g/cm2, dose
USRBIN 10. DOSE 33. 0.86 0.86 30.40D30
USRBIN -0.86 -0.86 30.35 1. 1. 1.&
* Neutrons, front
USRTRACK 1. NEUTRON 34. PNTD00 0.14792 100.N00
USRTRACK 0.2 0.0 &
* Neutrons, 5 g/cm2
USRTRACK 1. NEUTRON 35. PNTD05 0.14792 100.N05
USRTRACK 0.2 0.0 &
* Neutrons, 10 g/cm2
USRTRACK 1. NEUTRON 36. PNTD10 0.14792 100.N10
USRTRACK 0.2 0.0 &
* Neutrons, 15 g/cm2
USRTRACK 1. NEUTRON 37. PNTD15 0.14792 100.N15
USRTRACK 0.2 0.0 &
* Neutrons, 20 g/cm2
USRTRACK 1. NEUTRON 38. PNTD20 0.14792 100.N20
USRTRACK 0.2 0.0 &
* Neutrons, 30 g/cm2
USRTRACK 1. NEUTRON 39. PNTD30 0.14792 100.N30
USRTRACK 0.2 0.0 &
RANDOMIZ 1.0
START 3137.
STOP

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Received on Thu Apr 21 2011 - 22:30:46 CEST

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