# flair project file
Version: 3
Mode: fluka
Title: n_TOF lead target
md5: d92e51b2bdd1f66307dc5c5f3359a1a3
Input:
TITLE
	n_TOF lead target
*Set the defaults for precision simulations
DEFAULTS PRECISIO
*Define the beam characteristics
BEAM PROTON -20.0 -0.082425 -1.7
*Define the beam position
BEAMPOS , 2.2632 =-5*mm -10.0 =-sind(10) 0.0
GEOBEGIN COMBNAME
*Black body
SPH blkbody 0.0 0.0 0.0 100000.0
*Void sphere
SPH void 0.0 0.0 0.0 10000.0
*Water container
RPP watercnt -43.0 43.0 -53.6 53.6 -32.5 35.0
*Lead target
RPP pbtarget -40 40 -40 40 -30 30
RPP niche -15 15 -40.1 15 -30.1 -10
END
*Black hole
REGION BLKBODY 5
	+blkbody -void
*Void around
REGION VOID 5
	+void -watercnt
*Water container
REGION WATERCNT 5
	+watercnt -pbtarget | +niche
*Lead target
REGION TARGET 5
	+pbtarget -niche
END
GEOEND
*..+....1....+....2....+....3....+....4....+....5....+....6....+....7..
ASSIGNMA , BLCKHOLE BLKBODY
ASSIGNMA , VACUUM VOID
ASSIGNMA , WATER WATERCNT
ASSIGNMA , LEAD TARGET
*Energy deposition density
USRBIN EneDep 10 ENERGY -50 45 54 36 -45 -54 -33 100 100 100
*Proton fluence inside the target
USRTRACK Proton -1 PROTON -51 TARGET 1.0 100 20 0.001
*Neutron fluence inside the target
USRTRACK Neutron -1 NEUTRON -51 TARGET 1.0 100 20 1e-15
*Set the random number seed
RANDOMIZ , 1.0
*Set the number of primary histories to be simulated in the run
START , 100
STOP
EndInput

Notes:
n_TOF spallation lead target simulation

{img:tutorial_50_plot.png}

{img:tutorial_51_plot.png}

Page: Flair

# Run information
Run: <default>
	Last:     5
	Status:   2
	Pid:      4238
	StartRun: 1573227108
End

# Plots information
Plot: Red
	Type: Geometry
	basisu: 0 0 1
	basisv: 1 0 0
	coord: Z-X
	extends: 100 76.5258
	grid: 0
	layer: Media
	run: <tutorial>
	subtype: Material
	title: GeoViewer Red plot
End
Plot: Green
	Type: Geometry
	basisu: 0.836516 0.0173376 0.547668
	basisv: 0.224144 0.901221 -0.370891
	extends: 100 76.7059
	layer: 3D
	subtype: Material
	title: GeoViewer Green plot
End
Plot: Blue
	Type: Geometry
	basisu: 0 0 1
	coord: Z-Y
	extends: 100 76.2911
	layer: Media
	subtype: Material
	title: GeoViewer Blue plot
End
Plot: Magenta
	Type: Geometry
	coord: X-Y
	extends: 100 76.4706
	layer: Media
	subtype: Material
	title: GeoViewer Magenta plot
End
Plot: tutorial_50_plot
	Type: USRBIN
	cblabel: Energy Density [J/7 10^{12} p/cm^3]
	cblog: 1
	cbtics: 1
	datafile: tutorial_50.bnn
	format: .png
	geopos: -15
	grid: 1
	hist: 2D Projection
	int: 10.920512629859759
	max: 1.54531631E-03
	min: 1.58510718E-10
	norm: 7e12*1.6e-19*1e9
	proj: Y
	ratio: 1
	title: Deposited Energy
	titlefont: Times
	titlesize: 20
	xlabel: X [cm]
	ylabel: Y [cm]
	ysize: 14
End
Plot: tutorial_51_plot
	Type: USR-1D
	cbtics: 1
	commands: set label 'Evaporation peak' at 5e-6,2e17 font 'Arial,14'
	det.1: 1
	file.0: tutorial_51_tab.lis
	file.1: tutorial_51_tab.lis
	format: .png
	grid: 1
	lc.0: red
	lw.0: 2
	name.0: Proton
	name.1: Neutron
	ndetectors: 2
	norm.0: 7e12
	norm.1: 7e12
	title: Particle Fluence
	x.0: 2
	xlabel: Energy
	xlog: 1
	y.0: 1
	y.1: 1
	ylabel: Fluence [dn/dlnE/7 10^{12}p]
	ylog: 1
End