1 #ifndef CLASSIC_FIELDMAP1DDYNAMIC_HH
2 #define CLASSIC_FIELDMAP1DDYNAMIC_HH
13 double &rBegin,
double &rEnd)
const;
15 double &yIni,
double &yFinal,
16 double &zIni,
double &zFinal)
const;
21 virtual void getOnaxisEz(std::vector<std::pair<double, double>> &eZ);
31 bool checkFileData(std::ifstream &fieldFile,
bool parsingPassed);
33 std::vector<double> fieldComponents)
const;
35 std::vector<double> &fieldComponents)
const;
38 double readFileData(std::ifstream &fieldFile,
double fieldData[]);
40 std::vector<std::pair<double, double>> &eZ);
42 void scaleField(
double maxEz, std::vector<std::pair<double, double>> &eZ);
virtual void setFrequency(double freq)
int accuracy_m
Number of grid points in field input file.
virtual void getFieldDimensions(double &zBegin, double &zEnd, double &rBegin, double &rEnd) const
int numberOfGridPoints_m
Field length.
double rBegin_m
2 Pi divided by the field RF wavelength squared.
double rEnd_m
Minimum radius of field.
double readFileData(std::ifstream &fieldFile, double fieldData[])
virtual void getOnaxisEz(std::vector< std::pair< double, double >> &eZ)
FM1DDynamic(std::string aFilename)
void computeFieldOnAxis(double z, std::vector< double > &fieldComponents) const
bool readFileHeader(std::ifstream &fieldFile)
double length_m
Longitudinal end of field.
virtual bool getFieldDerivative(const Vector_t &R, Vector_t &E, Vector_t &B, const DiffDirection &dir) const
double zBegin_m
Maximum radius of field.
std::vector< double > fourierCoefs_m
Number of Fourier coefficients to use reconstructing field.
void scaleField(double maxEz, std::vector< std::pair< double, double >> &eZ)
virtual double getFrequency() const
bool checkFileData(std::ifstream &fieldFile, bool parsingPassed)
virtual bool isInside(const Vector_t &r) const
void computeFieldOffAxis(const Vector_t &R, Vector_t &E, Vector_t &B, std::vector< double > fieldComponents) const
double twoPiOverLambdaSq_m
Field angular frequency (Hz).
double zEnd_m
Longitudinal start of field.
void stripFileHeader(std::ifstream &fieldFile)
void computeFourierCoefficients(double maxEz, double fieldData[])
virtual void getInfo(Inform *)
virtual bool getFieldstrength(const Vector_t &R, Vector_t &E, Vector_t &B) const