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libamtrack (version 0.6.3)

Computational Routines for Proton and Ion Radiotherapy

Description

R interface to the open-source, ANSI C library 'libamtrack' (http://libamtrack.dkfz.org). 'libamtrack' provides computational routines for the prediction of detector response and radiobiological efficiency in heavy charged particle beams. It is designed for research in proton and ion dosimetry and radiotherapy. 'libamtrack' also includes many auxiliary physics routines for proton and ion beams. Original package and C-to-R conversion routines developed by Felix A. Klein.

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Version

Install

install.packages('libamtrack')

Monthly Downloads

9

Version

0.6.3

License

GPL (>= 3)

Maintainer

Steffen Greilich

Last Published

December 12th, 2015

Functions in libamtrack (0.6.3)

AT.Landau.PDF

AT.Landau.PDF
AT.add.trailing.zeros

AT.add.trailing.zeros
AT.Landau.IDF

AT.Landau.IDF
AT.electron.density.m3.from.material.no

AT.electron.density.m3.from.material.no
AT.Rutherford.SDCS

AT.Rutherford.SDCS
AT.average.Z.from.composition

AT.average.Z.from.composition
AT.FLUKA.read.USRBIN.regs

AT.FLUKA.read.USRBIN.regs
AT.Gauss.PDF

AT.Gauss.PDF
AT.beam.par.technical.to.physical

AT.beam.par.technical.to.physical
AT.effective.charge.from.E.MeV.u

AT.effective.charge.from.E.MeV.u
AT.A.from.particle.no

AT.A.from.particle.no
AT.Gauss.IDF

AT.Gauss.IDF
AT.SPC.spectrum.at.depth.g.cm2

AT.SPC.spectrum.at.depth.g.cm2
AT.mean.energy.loss.keV

AT.mean.energy.loss.keV
AT.fluence.weighted.LET.MeV.cm2.g

AT.fluence.weighted.LET.MeV.cm2.g
AT.SPC.tapply

AT.SPC.tapply
AT.particle.name.from.particle.no

AT.particle.name.from.particle.no
AT.electron.density.m3

AT.electron.density.m3
AT.lambda.landau.from.energy.loss

AT.lambda.landau.from.energy.loss
AT.material.name.from.material.no

AT.material.name.from.material.no
AT.SPC.get

AT.SPC.get
material.name

Material naming convention
AT.Vavilov.PDF

AT.Vavilov.PDF
AT.Stopping.Power.with.no

AT.Stopping.Power.with.no
AT.SPC.spectrum.at.depth.step

AT.SPC.spectrum.at.depth.step
AT.translate.dose.into.DSB.distribution

AT.translate.dose.into.DSB.distribution
AT.total.fluence.cm2

AT.total.fluence.cm2
AT.Mass.Stopping.Power.with.no

AT.Mass.Stopping.Power.with.no
AT.dose.Gy.from.fluence.cm2

AT.dose.Gy.from.fluence.cm2
AT.D.RDD.Gy

AT.D.RDD.Gy
AT.stopping.power.ratio

AT.stopping.power.ratio
AT.beta.from.E

AT.beta.from.E
AT.SPC.read

AT.SPC.read
AT.atomic.weight.from.Z

AT.atomic.weight.from.Z
AT.fluence.weighted.E.MeV.u

AT.fluence.weighted.E.MeV.u
AT.CSDA.range.g.cm2

AT.CSDA.range.g.cm2
AT.nuclear.spin.from.particle.no

AT.nuclear.spin.from.particle.no
AT.I.eV.from.composition

AT.I.eV.from.composition
AT.energy.loss.from.lambda.vavilov

AT.energy.loss.from.lambda.vavilov
AT.max.E.transfer.MeV.new

AT.max.E.transfer.MeV.new
AT.SPC.get.list

AT.SPC.get.list
AT.mean.number.of.tracks.contrib

AT.mean.number.of.tracks.contrib
AT.electron.density.m3.from.composition

AT.electron.density.m3.from.composition
AT.Stopping.Power

AT.Stopping.Power
material.no

Material indexing convention
rdd.model

Radial dose distribution (rdd) models
E.MeV.u

Ion energy values
AT.add.leading.zeros

AT.add.leading.zeros
AT.gamma.from.E

AT.gamma.from.E
AT.FLUKA.read.USRBIN.mesh

AT.FLUKA.read.USRBIN.mesh
AT.FLUKA.particle.name.to.libamtrack.particle.name

AT.FLUKA.particle.name.to.libamtrack.particle.name
AT.run.CPPSC.method

AT.run.CPPSC.method
AT.SPC.export.DEDX

AT.SPC.export.DEDX
AT.Mass.Stopping.Power

AT.Mass.Stopping.Power
AT.momentum.MeV.c.u.from.E.MeV.u

AT.momentum.MeV.c.u.from.E.MeV.u
number.of.field.components

Handling of mixed particle fields
AT.material.no.from.material.name

AT.material.no.from.material.name
AT.run.GSM.method

AT.run.GSM.method
AT.lambda.mean

AT.lambda.mean
particle.no

Particle indexing convention
AT.beam.par.physical.to.technical

AT.beam.par.physical.to.technical
particle.name

Particle naming convention
AT.CPPSC.alpha.and.beta

AT.CPPSC.alpha.and.beta
libamtrack-package

libamtrack package
AT.FLUKA.read.USRTRACK

AT.FLUKA.read.USRTRACK
AT.dose.weighted.LET.MeV.cm2.g

AT.dose.weighted.LET.MeV.cm2.g
AT.E.from.beta

AT.E.from.beta
AT.Z.from.particle.no

AT.Z.from.particle.no
AT.lambda.vavilov.from.energy.loss

AT.lambda.vavilov.from.energy.loss
AT.xi.keV

AT.xi.keV
AT.gamma.response

AT.gamma.response
AT.particle.no.from.particle.name

AT.particle.no.from.particle.name
er.model

Electron-range models
AT.effective.Z.from.composition

AT.effective.Z.from.composition
gamma.model

Gamma (X ray) response models
AT.max.electron.ranges.m

AT.max.electron.ranges.m
AT.inverse.gamma.response

AT.inverse.gamma.response
AT.SPC.interpolate

AT.SPC.interpolate
AT.Vavilov.IDF

AT.Vavilov.IDF
AT.get.materials.data

AT.get.materials.data
AT.average.A.from.composition

AT.average.A.from.composition
AT.SPC.convert.to.DDD

AT.SPC.convert.to.DDD
AT.particle.no.from.Z.and.A

AT.particle.no.from.Z.and.A
AT.max.E.transfer.MeV

AT.max.E.transfer.MeV
AT.E.MeV.u.from.momentum.MeV.c.u

AT.E.MeV.u.from.momentum.MeV.c.u
AT.dose.weighted.E.MeV.u

AT.dose.weighted.E.MeV.u
AT.energy.straggling.after.slab.E.MeV.u

AT.energy.straggling.after.slab.E.MeV.u
AT.fluence.cm2.from.dose.Gy

AT.fluence.cm2.from.dose.Gy
fluence.cm2.or.dose.Gy

Fluence and dose as equivalent input parameters
AT.kappa

AT.kappa
AT.energy.loss.from.lambda.landau

AT.energy.loss.from.lambda.landau
AT.energy.loss.from.lambda.gauss

AT.energy.loss.from.lambda.gauss
AT.run.IGK.method

AT.run.IGK.method
AT.set.user.material.from.composition

AT.set.user.material.from.composition
AT.energy.straggling.MeV2.cm2.g

AT.energy.straggling.MeV2.cm2.g
AT.set.user.material

AT.set.user.material
AT.r.RDD.m

AT.r.RDD.m
AT.lambda.max

AT.lambda.max
stopping.power.source

Sources of stopping power data
AT.total.D.Gy

AT.total.D.Gy