Example #1
0
    In = np.array([0.0, 1600.0, 3120, 4450.0])
    Bn = np.array([0.0, 0.05818182, 0.11345455, 0.16181818])

    # ===============================================================================
    # Perform Trajectory calculation for Trajectory Sweep
    # ===============================================================================

    AngleComponents = []
    Coordinates = []
    Parameters = []
    TrajectoryList = []
    OutputPath = './tmp/'
    Color = ['b', 'g', 'r', 'c']

    B = BfieldTF(B0=0.0)
    Bv = BfieldVF(B0=0.0)
    T = Trajectory(Vessel, B, Bv, v0=Vinjection[0], Method=None)
    for i, B0 in enumerate(Bn):
        for j, alph in enumerate(alpha):
            B = BfieldTF(B0=B0)
            Bv = BfieldVF(B0=0.00000)
            V0 = Vinjection[j]
            T.init_condition(Vessel, B, Bv, v0=V0, Method='LeapFrog')
            T.LineColor = Color[j]
            T.PlotParticle()
            T.PlotBV()
            TrajectoryList.append(T)

            np.savetxt("./tmp/Traject_{:d}_{:d}.dat".format(j, i),
                       np.array(T.r))
            AngleComponents.append([T.target.VAngle, T.target.HAngle])
Coordinates = []
Parameters = []
trajectory = []
beam = []
targetellipse = []
OutputPath = '../output/'
# Color=['k','g','r','c','b','m','g','r','c','b','m','g']

plt.figure(11)
Vessel.PlotCorners2D(Xlim=[-2.0, 2.0], scale=100.0)
Count = 0.0
MaxCount = len(Bv0) * len(Bn) * 1.0
for j in range(len(Bv0)):
    for i in range(len(Bn)):
        B = BfieldTF(B0=Bn[i])
        Bv = BfieldVF(B0=Bv0[j])
        # Calcuate Trajectory
        T = Trajectory(Vessel, B, Bv, v0=Vinjection, T0=Energy)
        T.LineColor = CMAP(1.0 * i / len(Bn))
        T.target.LineColor = CMAP(1.0 * i / len(Bn))
        T.LineWidth = 2.0
        T.target.LineWidth = 2.0
        trajectory.append(T)
        # Calcuate Sigma and Beamspot
        IonBeam = Beam(T, SInput)
        IonBeam.Trace()
        beam.append(IonBeam)
        targetellipse.append(Ellipse(IonBeam.sigma[-1]))
        plt.figure(10)
        IonBeam.target.PlotProjection()
        plt.figure(11)
Example #3
0
import numpy as np
import pylab as pl
import scipy.special as sp
from numpy.linalg import norm
import matplotlib as mpl

R = np.array([1, 0, 0])
RInj = [1.798, -0.052, 0.243]

# ------------------------------------------------------------------------------
# Define Toroidal Field
TF = BfieldTF()

# ------------------------------------------------------------------------------
# Define Vertical Field
VF = BfieldVF(B0=1.0)

# ===============================================================================
# B Field Plotting Functions
# ===============================================================================

# ------------------------------------------------------------------------------
# Plot Elliptic Integrals of the 1st and 2nd kind, used for vertical field


def PlotEllipticInt():
    Ni = 1000
    Ek = []
    Ee = []
    for i in range(Ni):
        K1 = sp.ellipk(1.0 * i / Ni)
    'mycolors', ['green', 'blue', 'black', 'red', 'orange'])

# ===============================================================================
# Perform Trajectory calculation for B-Field Sweep
# ===============================================================================

AngleComponents = []
Coordinates = []
Parameters = []
TrajectoryList = []
OutputPath = '../output/'
# Color=['k','g','r','c','b','m','g','r','c','b','m','g']

for i in range(len(Bn)):
    B = BfieldTF(B0=0.0)
    Bv = BfieldVF(B0=Bn[i])
    T = Trajectory(Vessel, B, Bv, v0=Vinjection, T0=Energy)
    T.LineColor = CMAP(1.0 * i / len(Bn))
    T.LineWidth = 2.0
    TrajectoryList.append(T)

# ------------------------------------------------------------------------------
# Save Target parameters
#	T.Target.SaveTargetParameters(TFCurrent=In[i],Path=OutputPath+'geometry/')

# append lists of Target Quantities
#	AngleComponents.append([T.Target.VAngle,T.Target.HAngle])
#	Coordinates.append([T.Target.R,T.Target.Z,T.Target.Phi])
#	Parameters.append(T.Target.GetDetectionParameters())

# ------------------------------------------------------------------------------