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Add beam eigenemittances to reduced diagnostics. #702

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Add eigenemittance calculation.
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1 change: 1 addition & 0 deletions src/particles/diagnostics/CMakeLists.txt
Original file line number Diff line number Diff line change
Expand Up @@ -2,4 +2,5 @@ target_sources(lib
PRIVATE
ReducedBeamCharacteristics.cpp
DiagnosticOutput.cpp
EmittanceInvariants.cpp
)
137 changes: 137 additions & 0 deletions src/particles/diagnostics/CovarianceMatrixMath.H
Original file line number Diff line number Diff line change
@@ -0,0 +1,137 @@
/* Copyright 2022-2023 The Regents of the University of California, through Lawrence
* Berkeley National Laboratory (subject to receipt of any required
* approvals from the U.S. Dept. of Energy). All rights reserved.
*
* This file is part of ImpactX.
*
* Authors: Chad Mitchell, Axel Huebl
* License: BSD-3-Clause-LBNL
*/
#ifndef COVARIANCE_MATRIX_MATH_H
#define COVARIANCE_MATRIX_MATH_H

#include <ablastr/constant.H>
#include <AMReX_Array.H>
#include <AMReX_REAL.H>
#include <tuple>

namespace impactx::diagnostics
{

/** Function to return the roots of a cubic polynomial ax^3 + bx^2 + cx + d.
* The trigonometric form of Cardano's formula is used.
* This implementation expects three real roots, which is verified
* by checking the sign of the discriminant.
*
* @param[in] a coefficient of cubic term
* @param[in] b coefficient of quadratic term
* @param[in] c coefficient of linear term
* @param[in] d coefficient of constant term
* @returns tuple of three real roots
*/
std::tuple<
amrex::ParticleReal,
amrex::ParticleReal,
amrex::ParticleReal>
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CubicRoots (
amrex::ParticleReal a,
amrex::ParticleReal b,
amrex::ParticleReal c,
amrex::ParticleReal d
)
{
using namespace amrex::literals;
using ablastr::constant::math::pi;

std::tuple <amrex::ParticleReal,amrex::ParticleReal,amrex::ParticleReal> roots;
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amrex::ParticleReal x1 = 0.0_prt;
amrex::ParticleReal x2 = 0.0_prt;
amrex::ParticleReal x3 = 0.0_prt;

amrex::ParticleReal Q = (3.0_prt*a*c - pow(b,2))/(9.0_prt * pow(a,2));
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amrex::ParticleReal R = (9.0_prt*a*b*c - 27_prt*pow(a,2)*d - 2.0_prt*pow(b,3))/(54.0_prt*pow(a,3));
amrex::ParticleReal discriminant = pow(Q,3) + pow(R,2);

// Discriminant should be < 0. Otherwise, keep theta at default and throw an error.
amrex::ParticleReal tol = 1.0e-12; //allow for roundoff error
if(discriminant > tol){
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std::cout << "Polynomial in CubicRoots has one or more complex roots." << "\n";
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} else if (Q == 0.0_prt){ // Special case of a triple root
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x1 = - b/(3.0_prt*a);
x2 = - b/(3.0_prt*a);
x3 = - b/(3.0_prt*a);

} else {

//Three real roots in trigonometric form.
amrex::ParticleReal theta = acos(R/sqrt(-pow(Q,3)));
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x1 = 2.0_prt*sqrt(-Q)*cos(theta/3.0_prt) - b/(3.0_prt*a);
x2 = 2.0_prt*sqrt(-Q)*cos(theta/3.0_prt + 2.0_prt*pi/3.0_prt) - b/(3.0_prt*a);
x3 = 2.0_prt*sqrt(-Q)*cos(theta/3.0_prt + 4.0_prt*pi/3.0_prt) - b/(3.0_prt*a);

}

//std::cout << "Discriminant, Q, R " << discriminant << " " << Q << " " << R << "\n";
//std::cout << "Return x1, x2, x3 " << x1 << " " << x2 << " " << x3 << "\n";
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roots = std::make_tuple(x1,x2,x3);
return roots;
}


/** Function to take the trace of a square 6x6 matrix.
*
* @param[in] A a square matrix
* @returns the trace of A
*/
amrex::ParticleReal
TraceMat (
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> A
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)
{
int const dim = 6;
amrex::ParticleReal trA = 0.0;

for (int i = 1; i < dim+1; i++) {
trA += A(i,i);
}
return trA;
}


/** Function to multiply two square matrices of dimension 6.
*
* @param[in] A a square matrix
* @param[in] B square matrix
* @returns the matrix C = AB
*/
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6>
MultiplyMat (
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> A,
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> B
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)
{
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> C;
int const dim = 6;

for (int i = 1; i < dim+1; i++) {
for (int j = 1; j < dim+1; j++) {
C(i,j) = 0;

for (int k = 1; k < dim+1; k++) {
C(i,j) += A(i,k) * B(k,j);
}

}

}
return C;
}


} // namespace impactx::diagnostics

#endif // COVARIANCE_MATRIX_MATH_H
61 changes: 61 additions & 0 deletions src/particles/diagnostics/EmittanceInvariants.H
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/* Copyright 2022-2023 The Regents of the University of California, through Lawrence
* Berkeley National Laboratory (subject to receipt of any required
* approvals from the U.S. Dept. of Energy). All rights reserved.
*
* This file is part of ImpactX.
*
* Authors: Marco Garten, Chad Mitchell, Axel Huebl
* License: BSD-3-Clause-LBNL
*/
#ifndef IMPACTX_EMITTANCE_INVARIANTS
#define IMPACTX_EMITTANCE_INVARIANTS

#include "particles/ImpactXParticleContainer.H"

#include <AMReX_REAL.H>

#include <string>
#include <unordered_map>
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namespace impactx::diagnostics
{

/** Returns the three independent kinetic invariants
* denoted I2, I4, and I6 as constructed from the 6x6
* beam covariance matrix. These three quantities are invariant
* under any linear symplectic transport map, and are used in the
* calculation of the three eigenemittances.
*
* @param[in] Sigma symmetric 6x6 covariance matrix
* @returns tuple containing invariants I2, I4, and I6
*/
std::tuple<
amrex::ParticleReal,
amrex::ParticleReal,
amrex::ParticleReal>
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KineticInvariants (
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> Sigma
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);

/** Returns the three eigenemittances
* denoted e1, e2, and e3 as constructed from the 6x6
* beam covariance matrix. These three quantities are invariant
* under any linear symplectic transport map, and reduce to
* the projected normalized rms emittances in the limit of
* uncoupled transport.
*
* @param[in] Sigma symmetric 6x6 covariance matrix
* @returns tuple containing eigenemittances e1, e2, and e3
*/
std::tuple<
amrex::ParticleReal,
amrex::ParticleReal,
amrex::ParticleReal>
Eigenemittances (
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> Sigma
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);

} // namespace impactx::diagnostics

#endif // IMPACTX_EMITTANCE_INVARIANTS
138 changes: 138 additions & 0 deletions src/particles/diagnostics/EmittanceInvariants.cpp
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/* Copyright 2022-2023 The Regents of the University of California, through Lawrence
* Berkeley National Laboratory (subject to receipt of any required
* approvals from the U.S. Dept. of Energy). All rights reserved.
*
* This file is part of ImpactX.
*
* Authors: Chad Mitchell, Axel Huebl
* License: BSD-3-Clause-LBNL
*/
#include "CovarianceMatrixMath.H"

#include <stdexcept>
#include <AMReX_Extension.H>
#include <AMReX_REAL.H>
#include <AMReX_GpuComplex.H>
#include <cmath>
#include <vector>
#include <tuple>
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namespace impactx::diagnostics
{

/** This function returns the three independent kinetic invariants
* denoted I2, I4, and I6 as constructed from the 6x6
* beam covariance matrix. These three quantities are invariant
* under any linear symplectic transport map, and are used in the
* calculation of the three eigenemittances.
*
* input - Sigma symmetric 6x6 covariance matrix
* returns - tuple containing invarants I2, I4, and I6
*/
std::tuple<
amrex::ParticleReal,
amrex::ParticleReal,
amrex::ParticleReal>
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KineticInvariants (
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> Sigma
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)
{
using namespace amrex::literals;

std::tuple <amrex::ParticleReal,amrex::ParticleReal,amrex::ParticleReal> invariants;
amrex::ParticleReal I2 = 0.0_prt;
amrex::ParticleReal I4 = 0.0_prt;
amrex::ParticleReal I6 = 0.0_prt;

// Intermediate matrices used for storage.
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> S1;
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> S2;
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> S4;
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> S6;

// Construct the matrix S1 = Sigma*J. This is a
// permutation of the columns of Sigma with
// a change of sign.
for (int i = 1; i < 7; i++) {
for (int j = 1; j < 7; j++) {
if (j % 2) {
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S1(i,j) = -Sigma(i,j+1); // if j is odd
}
else {
S1(i,j) = +Sigma(i,j-1); // if j is even
}
}
}

// Carry out necessary matrix multiplications (3 are needed).
S2 = impactx::diagnostics::MultiplyMat(S1,S1);
S4 = impactx::diagnostics::MultiplyMat(S2,S2);
S6 = impactx::diagnostics::MultiplyMat(S2,S4);

// Define the three kinematic invariants (should be nonnegative).
I2 = -impactx::diagnostics::TraceMat(S2)/2.0_prt;
I4 = +impactx::diagnostics::TraceMat(S4)/2.0_prt;
I6 = -impactx::diagnostics::TraceMat(S6)/2.0_prt;

//std::cout << "Return I2, I4, I6 " << I2 << " " << I4 << " " << I6 << "\n";
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invariants = std::make_tuple(I2,I4,I6);
return invariants;
}


/** This function returns the three eigenemittances
* denoted e1, e2, and e3 as constructed from the 6x6
* beam covariance matrix. These three quantities are invariant
* under any linear symplectic transport map, and reduce to
* the projected normalized rms emittances in the limit of
* uncoupled transport.
*
* input - Sigma symmetric 6x6 covariance matrix
* returns - tuple containing eigenemittances e1, e2, and e3
*/
std::tuple<
amrex::ParticleReal,
amrex::ParticleReal,
amrex::ParticleReal>
Eigenemittances (
amrex::Array2D<amrex::ParticleReal, 1, 6, 1, 6> Sigma
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)
{
using namespace amrex::literals;
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std::tuple <amrex::ParticleReal,amrex::ParticleReal,amrex::ParticleReal> invariants;
std::tuple <amrex::ParticleReal,amrex::ParticleReal,amrex::ParticleReal> roots;
std::tuple <amrex::ParticleReal,amrex::ParticleReal,amrex::ParticleReal> emittances;
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// Get the invariants I2, I4, and I6 from the covariance matrix.
invariants = KineticInvariants(Sigma);
amrex::ParticleReal I2 = std::get<0>(invariants);
amrex::ParticleReal I4 = std::get<1>(invariants);
amrex::ParticleReal I6 = std::get<2>(invariants);

// Construct the coefficients of the cubic polynomial
amrex::ParticleReal a = 1.0_prt;
amrex::ParticleReal b = -I2;
amrex::ParticleReal c = (pow(I2,2)-I4)/2.0_prt;
amrex::ParticleReal d = -pow(I2,3)/6.0_prt + I2*I4/2.0_prt - I6/3.0_prt;

// Return the cubic coefficients
//std::cout << "Return a,b,c,d " << a << " " << b << " " << c << " " << d << "\n";

// Solve for the roots to obtain the eigenemittances.
roots = CubicRoots(a,b,c,d);
amrex::ParticleReal e1 = sqrt(std::get<1>(roots));
amrex::ParticleReal e2 = sqrt(std::get<2>(roots));
amrex::ParticleReal e3 = sqrt(std::get<0>(roots));
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// Caution: The order of e1,e2,e3 should be consistent with the
// order ex,ey,et in the limit of uncoupled transport. The
// ordering remains to be carefully checked (TODO).
emittances = std::make_tuple(e1,e2,e3);
return emittances;
}


} // namespace impactx::diagnostics
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