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LinearComptonCollisionFunc.H
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1/* Copyright 2023 Arianna Formenti
2 *
3 * This file is part of WarpX.
4 *
5 * License: BSD-3-Clause-LBNL
6 */
7
8#ifndef LINEAR_COMPTON_COLLISION_FUNC_H_
9#define LINEAR_COMPTON_COLLISION_FUNC_H_
10
11#include "SingleLinearComptonCollisionEvent.H"
12
13#include "Particles/Collision/BinaryCollision/BinaryCollisionUtils.H"
14#include "Particles/Pusher/GetAndSetPosition.H"
15#include "Particles/MultiParticleContainer.H"
16#include "Particles/WarpXParticleContainer.H"
17#include "Utils/Parser/ParserUtils.H"
18#include "Utils/TextMsg.H"
19
20#include <AMReX_Algorithm.H>
21#include <AMReX_DenseBins.H>
22#include <AMReX_ParmParse.H>
23#include <AMReX_Random.H>
24#include <AMReX_REAL.H>
25#include <AMReX_Vector.H>
26
35class LinearComptonCollisionFunc
36{
37 // Define shortcuts for frequently-used type names
38 using ParticleType = WarpXParticleContainer::ParticleType;
39 using ParticleTileType = WarpXParticleContainer::ParticleTileType;
40 using ParticleTileDataType = ParticleTileType::ParticleTileDataType;
41 using ParticleBins = amrex::DenseBins<ParticleTileDataType>;
42 using index_type = ParticleBins::index_type;
43 using SoaData_type = WarpXParticleContainer::ParticleTileType::ParticleTileDataType;
44
45public:
49 LinearComptonCollisionFunc () = default;
50
57 LinearComptonCollisionFunc (
58 const std::string collision_name,
59 MultiParticleContainer const * const /*mypc*/,
60 const bool isSameSpecies) :
61 m_isSameSpecies(isSameSpecies)
62 {
63 using namespace amrex::literals;
64
65#ifdef AMREX_SINGLE_PRECISION_PARTICLES
66 WARPX_ABORT_WITH_MESSAGE("Linear Compton scattering module does not currently work with single precision");
67#endif
68
69 amrex::ParmParse pp_collision_name(collision_name);
70
71 // default event multiplier
72 m_event_multiplier = 1.0_prt;
73 utils::parser::queryWithParser(
74 pp_collision_name, "event_multiplier", m_event_multiplier);
75
76 // default probability threshold
77 m_probability_threshold = 0.02_prt;
78 utils::parser::queryWithParser(
79 pp_collision_name, "probability_threshold", m_probability_threshold);
80
81 // default probability target_value
82 constexpr auto default_probability_target_value = 0.002_prt;
83 m_probability_target_value = default_probability_target_value;
84 utils::parser::queryWithParser(
85 pp_collision_name, "probability_target_value",
86 m_probability_target_value);
87
88 m_exe.m_event_multiplier = m_event_multiplier;
89 m_exe.m_probability_threshold = m_probability_threshold;
90 m_exe.m_probability_target_value = m_probability_target_value;
91 m_exe.m_isSameSpecies = m_isSameSpecies;
92 }
93
94 struct Executor {
132 AMREX_GPU_HOST_DEVICE AMREX_INLINE
133 void operator() (
134 index_type const I1s, index_type const I1e,
135 index_type const I2s, index_type const I2e,
136 index_type const* AMREX_RESTRICT I1,
137 index_type const* AMREX_RESTRICT I2,
138 const SoaData_type& soa_1, const SoaData_type& soa_2,
139 GetParticlePosition<PIdx> /*get_position_1*/, GetParticlePosition<PIdx> /*get_position_2*/,
140 amrex::ParticleReal const /*n1*/, amrex::ParticleReal const /*n2*/,
141 amrex::ParticleReal const /*T1*/, amrex::ParticleReal const /*T2*/,
142 amrex::Real const /*global_lamdb*/,
143 amrex::ParticleReal const /*q1*/, amrex::ParticleReal const /*q2*/,
144 amrex::ParticleReal const /*m1*/, amrex::ParticleReal const /*m2*/,
145 amrex::Real const dt, amrex::Real const dV, index_type coll_idx,
146 index_type const cell_start_pair, index_type* AMREX_RESTRICT p_mask,
147 index_type* AMREX_RESTRICT p_pair_indices_1, index_type* AMREX_RESTRICT p_pair_indices_2,
148 amrex::ParticleReal* AMREX_RESTRICT p_pair_reaction_weight,
149 amrex::ParticleReal* /*p_product_data*/,
150 amrex::RandomEngine const& engine) const
151 {
152 amrex::ParticleReal * const AMREX_RESTRICT w1 = soa_1.m_rdata[PIdx::w];
153 amrex::ParticleReal * const AMREX_RESTRICT u1x = soa_1.m_rdata[PIdx::ux];
154 amrex::ParticleReal * const AMREX_RESTRICT u1y = soa_1.m_rdata[PIdx::uy];
155 amrex::ParticleReal * const AMREX_RESTRICT u1z = soa_1.m_rdata[PIdx::uz];
156 uint64_t* AMREX_RESTRICT idcpu1 = soa_1.m_idcpu;
157
158 amrex::ParticleReal * const AMREX_RESTRICT w2 = soa_2.m_rdata[PIdx::w];
159 amrex::ParticleReal * const AMREX_RESTRICT u2x = soa_2.m_rdata[PIdx::ux];
160 amrex::ParticleReal * const AMREX_RESTRICT u2y = soa_2.m_rdata[PIdx::uy];
161 amrex::ParticleReal * const AMREX_RESTRICT u2z = soa_2.m_rdata[PIdx::uz];
162 uint64_t* AMREX_RESTRICT idcpu2 = soa_2.m_idcpu;
163
164 // Number of macroparticles of each species
165 const index_type NI1 = I1e - I1s;
166 const index_type NI2 = I2e - I2s;
167 const index_type max_N = amrex::max(NI1,NI2);
168 const index_type min_N = amrex::min(NI1,NI2);
169
170 index_type pair_index = cell_start_pair + coll_idx;
171
172 // multiplier ratio to take into account unsampled pairs
173 const auto multiplier_ratio = static_cast<int>(
174 m_isSameSpecies ? min_N + max_N - 1 : min_N);
175
176#if (defined WARPX_DIM_RZ)
177 amrex::ParticleReal * const AMREX_RESTRICT theta1 = soa_1.m_rdata[PIdx::theta];
178 amrex::ParticleReal * const AMREX_RESTRICT theta2 = soa_2.m_rdata[PIdx::theta];
179#endif
180 index_type i1 = I1s + coll_idx;
181 index_type i2 = I2s + coll_idx;
182 // we will start from collision number = coll_idx and then add
183 // stride (smaller set size) until we do all collisions (larger set size)
184 for (index_type k = coll_idx; k < max_N; k += min_N)
185 {
186 // do not check for collision if a particle's weight was
187 // reduced to zero from a previous collision
188 if (idcpu1[ I1[i1] ]==amrex::ParticleIdCpus::Invalid ||
189 idcpu2[ I2[i2] ]==amrex::ParticleIdCpus::Invalid ) {
190 p_mask[pair_index] = false;
191 }
192 else {
193#if (defined WARPX_DIM_RZ)
194 /* In RZ geometry, macroparticles can collide with other macroparticles
195 * in the same *cylindrical* cell. For this reason, collisions between macroparticles
196 * are actually not local in space. In this case, the underlying assumption is that
197 * particles within the same cylindrical cell represent a cylindrically-symmetry
198 * momentum distribution function. Therefore, here, we temporarily rotate the
199 * momentum of one of the macroparticles in agreement with this cylindrical symmetry.
200 * (This is technically only valid if we use only the m=0 azimuthal mode in the simulation;
201 * there is a corresponding assert statement at initialization.) */
202 amrex::ParticleReal const theta = theta2[I2[i2]]-theta1[I1[i1]];
203 amrex::ParticleReal const u1xbuf = u1x[I1[i1]];
204 u1x[I1[i1]] = u1xbuf*std::cos(theta) - u1y[I1[i1]]*std::sin(theta);
205 u1y[I1[i1]] = u1xbuf*std::sin(theta) + u1y[I1[i1]]*std::cos(theta);
206#endif
207 SingleLinearComptonCollisionEvent(
208 u1x[ I1[i1] ], u1y[ I1[i1] ], u1z[ I1[i1] ],
209 u2x[ I2[i2] ], u2y[ I2[i2] ], u2z[ I2[i2] ],
210 w1[ I1[i1] ], w2[ I2[i2] ],
211 dt, dV, static_cast<int>(pair_index), p_mask, p_pair_reaction_weight,
212 m_event_multiplier, multiplier_ratio,
213 m_probability_threshold,
214 m_probability_target_value,
215 engine);
216#if (defined WARPX_DIM_RZ)
217 amrex::ParticleReal const u1xbuf_new = u1x[I1[i1]];
218 u1x[I1[i1]] = u1xbuf_new*std::cos(-theta) - u1y[I1[i1]]*std::sin(-theta);
219 u1y[I1[i1]] = u1xbuf_new*std::sin(-theta) + u1y[I1[i1]]*std::cos(-theta);
220#endif
221 // Remove pair reaction weight from the colliding particles' weights
222 if (p_mask[pair_index]) {
223 BinaryCollisionUtils::remove_weight_from_colliding_particle(
224 w1[ I1[i1] ], idcpu1[ I1[i1] ], p_pair_reaction_weight[pair_index]);
225 BinaryCollisionUtils::remove_weight_from_colliding_particle(
226 w2[ I2[i2] ], idcpu2[ I2[i2] ], p_pair_reaction_weight[pair_index]);
227 }
228 }
229
230 p_pair_indices_1[pair_index] = I1[i1];
231 p_pair_indices_2[pair_index] = I2[i2];
232 if (max_N == NI1) { i1 += min_N; }
233 if (max_N == NI2) { i2 += min_N; }
234 pair_index += min_N;
235 }
236 }
237
238 amrex::ParticleReal m_event_multiplier;
239 amrex::ParticleReal m_probability_threshold;
240 amrex::ParticleReal m_probability_target_value;
241 bool m_isSameSpecies;
242 bool m_computeSpeciesDensities = false;
243 bool m_computeSpeciesTemperatures = false;
244 bool m_need_product_data = false;
245 };
246
247 [[nodiscard]] Executor const& executor () const { return m_exe; }
248
249 bool use_global_debye_length() { return false; }
250
251private:
252 // Factor used to increase the number of collisions by decreasing the weight of the
253 // produced particles
254 amrex::ParticleReal m_event_multiplier;
255 // If the event multiplier is too high and results in a collision probability that approaches
256 // 1, there is a risk of underestimating the total yield of electrons and positrons.
257 // In these cases, we reduce the event multiplier used in a given collision.
258 // m_probability_threshold is the probability above which we reduce the event multiplier.
259 // m_probability_target_value is the target probability used to determine by how much
260 // the event multiplier should be reduced.
261 amrex::ParticleReal m_probability_threshold;
262 amrex::ParticleReal m_probability_target_value;
263 bool m_isSameSpecies;
264
265 Executor m_exe;
266};
267
268#endif // LINEAR_COMPTON_COLLISION_FUNC_H_
AMReX_Algorithm.H
AMReX_DenseBins.H
AMREX_RESTRICT
#define AMREX_RESTRICT
AMREX_INLINE
#define AMREX_INLINE
AMREX_GPU_HOST_DEVICE
#define AMREX_GPU_HOST_DEVICE
AMReX_ParmParse.H
AMReX_REAL.H
AMReX_Random.H
AMReX_Vector.H
SingleLinearComptonCollisionEvent
AMREX_GPU_HOST_DEVICE AMREX_INLINE void SingleLinearComptonCollisionEvent(const amrex::ParticleReal &u1x, const amrex::ParticleReal &u1y, const amrex::ParticleReal &u1z, const amrex::ParticleReal &u2x, const amrex::ParticleReal &u2y, const amrex::ParticleReal &u2z, amrex::ParticleReal w1, amrex::ParticleReal w2, const amrex::Real &dt, const amrex::ParticleReal &dV, const int &pair_index, index_type *AMREX_RESTRICT p_mask, amrex::ParticleReal *AMREX_RESTRICT p_pair_reaction_weight, const amrex::ParticleReal &event_multiplier, const int &multiplier_ratio, const amrex::ParticleReal &probability_threshold, const amrex::ParticleReal &probability_target_value, const amrex::RandomEngine &engine)
This function computes whether the collision between a photon and lepton results in a scattering even...
Definition SingleLinearComptonCollisionEvent.H:49
TextMsg.H
WARPX_ABORT_WITH_MESSAGE
#define WARPX_ABORT_WITH_MESSAGE(MSG)
Definition TextMsg.H:15
LinearComptonCollisionFunc::m_isSameSpecies
bool m_isSameSpecies
Definition LinearComptonCollisionFunc.H:263
LinearComptonCollisionFunc::use_global_debye_length
bool use_global_debye_length()
Definition LinearComptonCollisionFunc.H:249
LinearComptonCollisionFunc::m_exe
Executor m_exe
Definition LinearComptonCollisionFunc.H:265
LinearComptonCollisionFunc::executor
Executor const & executor() const
Definition LinearComptonCollisionFunc.H:247
LinearComptonCollisionFunc::ParticleTileType
WarpXParticleContainer::ParticleTileType ParticleTileType
Definition LinearComptonCollisionFunc.H:39
LinearComptonCollisionFunc::LinearComptonCollisionFunc
LinearComptonCollisionFunc()=default
Default constructor of the LinearComptonCollisionFunc class.
LinearComptonCollisionFunc::ParticleType
WarpXParticleContainer::ParticleType ParticleType
Definition LinearComptonCollisionFunc.H:38
LinearComptonCollisionFunc::SoaData_type
WarpXParticleContainer::ParticleTileType::ParticleTileDataType SoaData_type
Definition LinearComptonCollisionFunc.H:43
LinearComptonCollisionFunc::ParticleBins
amrex::DenseBins< ParticleTileDataType > ParticleBins
Definition LinearComptonCollisionFunc.H:41
LinearComptonCollisionFunc::m_event_multiplier
amrex::ParticleReal m_event_multiplier
Definition LinearComptonCollisionFunc.H:254
LinearComptonCollisionFunc::index_type
ParticleBins::index_type index_type
Definition LinearComptonCollisionFunc.H:42
LinearComptonCollisionFunc::ParticleTileDataType
ParticleTileType::ParticleTileDataType ParticleTileDataType
Definition LinearComptonCollisionFunc.H:40
LinearComptonCollisionFunc::m_probability_threshold
amrex::ParticleReal m_probability_threshold
Definition LinearComptonCollisionFunc.H:261
LinearComptonCollisionFunc::LinearComptonCollisionFunc
LinearComptonCollisionFunc(const std::string collision_name, MultiParticleContainer const *const, const bool isSameSpecies)
Constructor of the LinearComptonCollisionFunc class.
Definition LinearComptonCollisionFunc.H:57
LinearComptonCollisionFunc::m_probability_target_value
amrex::ParticleReal m_probability_target_value
Definition LinearComptonCollisionFunc.H:262
MultiParticleContainer
Definition MultiParticleContainer.H:68
amrex::ParticleContainer_impl< SoAParticle< T_NArrayReal, T_NArrayInt >, T_NArrayReal, T_NArrayInt, Allocator, CellAssignor >::ParticleTileType
ParticleTile< ParticleType, NArrayReal, NArrayInt, Allocator > ParticleTileType
amrex::ParticleContainer_impl< SoAParticle< T_NArrayReal, T_NArrayInt >, T_NArrayReal, T_NArrayInt, Allocator, CellAssignor >::ParticleType
T_ParticleType ParticleType
BinaryCollisionUtils::remove_weight_from_colliding_particle
AMREX_GPU_HOST_DEVICE AMREX_INLINE void remove_weight_from_colliding_particle(amrex::ParticleReal &weight, uint64_t &idcpu, const amrex::ParticleReal reaction_weight)
Subtract given weight from particle and set its ID to invalid if the weight reaches zero.
Definition BinaryCollisionUtils.H:148
amrex::ParticleIdCpus::Invalid
constexpr std::uint64_t Invalid
amrex::min
__host__ __device__ constexpr const T & min(const T &a, const T &b) noexcept
amrex::max
__host__ __device__ constexpr const T & max(const T &a, const T &b) noexcept
utils::parser::queryWithParser
int queryWithParser(const amrex::ParmParse &a_pp, char const *const str, T &val)
Definition ParserUtils.H:102
GetParticlePosition
Functor that can be used to extract the positions of the macroparticles inside a ParallelFor kernel.
Definition GetAndSetPosition.H:75
LinearComptonCollisionFunc::Executor
Definition LinearComptonCollisionFunc.H:94
LinearComptonCollisionFunc::Executor::m_computeSpeciesDensities
bool m_computeSpeciesDensities
Definition LinearComptonCollisionFunc.H:242
LinearComptonCollisionFunc::Executor::m_probability_threshold
amrex::ParticleReal m_probability_threshold
Definition LinearComptonCollisionFunc.H:239
LinearComptonCollisionFunc::Executor::m_computeSpeciesTemperatures
bool m_computeSpeciesTemperatures
Definition LinearComptonCollisionFunc.H:243
LinearComptonCollisionFunc::Executor::operator()
AMREX_GPU_HOST_DEVICE AMREX_INLINE void operator()(index_type const I1s, index_type const I1e, index_type const I2s, index_type const I2e, index_type const *AMREX_RESTRICT I1, index_type const *AMREX_RESTRICT I2, const SoaData_type &soa_1, const SoaData_type &soa_2, GetParticlePosition< PIdx >, GetParticlePosition< PIdx >, amrex::ParticleReal const, amrex::ParticleReal const, amrex::ParticleReal const, amrex::ParticleReal const, amrex::Real const, amrex::ParticleReal const, amrex::ParticleReal const, amrex::ParticleReal const, amrex::ParticleReal const, amrex::Real const dt, amrex::Real const dV, index_type coll_idx, index_type const cell_start_pair, index_type *AMREX_RESTRICT p_mask, index_type *AMREX_RESTRICT p_pair_indices_1, index_type *AMREX_RESTRICT p_pair_indices_2, amrex::ParticleReal *AMREX_RESTRICT p_pair_reaction_weight, amrex::ParticleReal *, amrex::RandomEngine const &engine) const
Executor of the LinearComptonCollisionFunc class. Performs linear Compton scattering at the cell leve...
Definition LinearComptonCollisionFunc.H:133
LinearComptonCollisionFunc::Executor::m_need_product_data
bool m_need_product_data
Definition LinearComptonCollisionFunc.H:244
LinearComptonCollisionFunc::Executor::m_probability_target_value
amrex::ParticleReal m_probability_target_value
Definition LinearComptonCollisionFunc.H:240
LinearComptonCollisionFunc::Executor::m_event_multiplier
amrex::ParticleReal m_event_multiplier
Definition LinearComptonCollisionFunc.H:238
LinearComptonCollisionFunc::Executor::m_isSameSpecies
bool m_isSameSpecies
Definition LinearComptonCollisionFunc.H:241
PIdx::uz
@ uz
Definition WarpXParticleContainer.H:70
PIdx::w
@ w
Definition WarpXParticleContainer.H:70
PIdx::uy
@ uy
Definition WarpXParticleContainer.H:70
PIdx::ux
@ ux
Definition WarpXParticleContainer.H:70
amrex::ParticleTile< ParticleType, NArrayReal, NArrayInt, Allocator >::ParticleTileDataType
ParticleTileData< StorageParticleType, NArrayReal, NArrayInt > ParticleTileDataType
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