#include <Thermal.H>
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| ThermalData (amrex::ParticleReal kin, amrex::ParticleReal T1in, amrex::ParticleReal T2in, amrex::ParticleReal p1in, amrex::ParticleReal p2in, amrex::ParticleReal win) |
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void | generate_radial_dist (amrex::ParticleReal bunch_charge, RefPart const &refpart) |
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amrex::ParticleReal | matched_scale_radius () |
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void | integrate (amrex::ParticleReal in, amrex::ParticleReal out, int steps) |
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void | map1 (amrex::ParticleReal const tau, amrex::ParticleReal &reval) |
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void | map2 (amrex::ParticleReal const tau, amrex::ParticleReal &reval) |
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amrex::ParticleReal | m_f1 |
| cumulative distribution of first population More...
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amrex::ParticleReal | m_f2 |
| cumulative distribution of second population More...
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amrex::ParticleReal | m_phi1 |
| potential generated by first population More...
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amrex::ParticleReal | m_phi2 |
| potential generated by second population More...
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amrex::ParticleReal | m_p1 |
| normalization constant of first population More...
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amrex::ParticleReal | m_p2 |
| normalization constant of second population More...
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amrex::ParticleReal | m_rmin |
| minimum r value for tabulated cdf More...
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amrex::ParticleReal | m_rmax |
| maximum r value for tabulated cdf More...
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int | m_nbins |
| number of radial bins for tabulated cdf More...
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amrex::ParticleReal * | m_cdf1 = nullptr |
| tabulated cumulative distribution (first) More...
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amrex::ParticleReal * | m_cdf2 = nullptr |
| tabulated cumulative distribution (second) More...
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amrex::ParticleReal | m_Cintensity |
| space charge intensity parameter More...
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amrex::ParticleReal | m_bg |
| reference value of relativistic beta*gamma More...
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amrex::ParticleReal | m_k |
| linear focusing strength (1/meters) More...
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amrex::ParticleReal | m_T1 |
| temperature k*T of the primary (core) population More...
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amrex::ParticleReal | m_T2 |
| temperature k*T of the secondary (halo) population More...
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amrex::ParticleReal | m_w |
| weight of the secondary (halo) population More...
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◆ ThermalData()
impactx::distribution::ThermalData::ThermalData |
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amrex::ParticleReal |
kin, |
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amrex::ParticleReal |
T1in, |
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amrex::ParticleReal |
T2in, |
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amrex::ParticleReal |
p1in, |
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amrex::ParticleReal |
p2in, |
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amrex::ParticleReal |
win |
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inline |
◆ generate_radial_dist()
void impactx::distribution::ThermalData::generate_radial_dist |
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amrex::ParticleReal |
bunch_charge, |
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RefPart const & |
refpart |
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) |
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inline |
Populate the radial CDF data.
- Parameters
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[in] | bunch_charge | the bunch charge in C |
[in] | refpart | the reference particle |
◆ integrate()
void impactx::distribution::ThermalData::integrate |
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amrex::ParticleReal |
in, |
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amrex::ParticleReal |
out, |
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int |
steps |
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inline |
◆ map1()
void impactx::distribution::ThermalData::map1 |
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amrex::ParticleReal const |
tau, |
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amrex::ParticleReal & |
reval |
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) |
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inline |
◆ map2()
void impactx::distribution::ThermalData::map2 |
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amrex::ParticleReal const |
tau, |
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amrex::ParticleReal & |
reval |
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) |
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inline |
◆ matched_scale_radius()
amrex::ParticleReal impactx::distribution::ThermalData::matched_scale_radius |
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inline |
◆ m_bg
amrex::ParticleReal impactx::distribution::ThermalData::m_bg |
reference value of relativistic beta*gamma
◆ m_cdf1
amrex::ParticleReal* impactx::distribution::ThermalData::m_cdf1 = nullptr |
tabulated cumulative distribution (first)
◆ m_cdf2
amrex::ParticleReal* impactx::distribution::ThermalData::m_cdf2 = nullptr |
tabulated cumulative distribution (second)
◆ m_Cintensity
amrex::ParticleReal impactx::distribution::ThermalData::m_Cintensity |
space charge intensity parameter
◆ m_d_cdf1
◆ m_d_cdf2
◆ m_f1
amrex::ParticleReal impactx::distribution::ThermalData::m_f1 |
cumulative distribution of first population
◆ m_f2
amrex::ParticleReal impactx::distribution::ThermalData::m_f2 |
cumulative distribution of second population
◆ m_k
amrex::ParticleReal impactx::distribution::ThermalData::m_k |
linear focusing strength (1/meters)
◆ m_nbins
int impactx::distribution::ThermalData::m_nbins |
number of radial bins for tabulated cdf
◆ m_p1
amrex::ParticleReal impactx::distribution::ThermalData::m_p1 |
normalization constant of first population
◆ m_p2
amrex::ParticleReal impactx::distribution::ThermalData::m_p2 |
normalization constant of second population
◆ m_phi1
amrex::ParticleReal impactx::distribution::ThermalData::m_phi1 |
potential generated by first population
◆ m_phi2
amrex::ParticleReal impactx::distribution::ThermalData::m_phi2 |
potential generated by second population
◆ m_rmax
amrex::ParticleReal impactx::distribution::ThermalData::m_rmax |
maximum r value for tabulated cdf
◆ m_rmin
amrex::ParticleReal impactx::distribution::ThermalData::m_rmin |
minimum r value for tabulated cdf
◆ m_T1
amrex::ParticleReal impactx::distribution::ThermalData::m_T1 |
temperature k*T of the primary (core) population
◆ m_T2
amrex::ParticleReal impactx::distribution::ThermalData::m_T2 |
temperature k*T of the secondary (halo) population
◆ m_w
amrex::ParticleReal impactx::distribution::ThermalData::m_w |
weight of the secondary (halo) population
◆ nsteps
constexpr int impactx::distribution::ThermalData::nsteps = 2000 |
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staticconstexpr |
number of radial steps for numerical integration
◆ rin
constexpr amrex::ParticleReal impactx::distribution::ThermalData::rin = 1.0e-10 |
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staticconstexpr |
initial r value for numerical integration
◆ rout
constexpr amrex::ParticleReal impactx::distribution::ThermalData::rout = 10.0 |
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staticconstexpr |
final r value for numerical integration
◆ tolerance
constexpr amrex::ParticleReal impactx::distribution::ThermalData::tolerance = 1.0e-3 |
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staticconstexpr |
tolerance for matching condition
The documentation for this struct was generated from the following file:
- /home/docs/checkouts/readthedocs.org/user_builds/impactx/checkouts/24.02/src/particles/distribution/Thermal.H