def test_Ekin(self):
print('\nTest momentum')
beam = pytlwall.Beam(p_MeV_c=0.1)
self.assertEqual(0.87, round(beam.betarel, 2))
self.assertEqual(2.00, round(beam.gammarel, 3))
self.assertEqual(938.3, round(beam.Ekin_MeV, 1))
self.assertEqual(0.1, round(beam.p_MeV_c, 1))
def test_default(self):
print('\nTesting default values')
beam = pytlwall.Beam()
self.assertEqual(1, beam.betarel)
self.assertEqual(float('inf'), beam.gammarel)
self.assertEqual(float('inf'), beam.Ekin_MeV)
self.assertEqual(float('inf'), beam.p_MeV_c)
def test_Ekin(self):
print('\nTest kinetic energy')
beam = pytlwall.Beam(Ekin_MeV=0.1)
self.assertEqual(0.015, round(beam.betarel, 3))
self.assertEqual(1.0, round(beam.gammarel, 3))
self.assertEqual(0.1, round(beam.Ekin_MeV, 1))
self.assertEqual(13.7, round(beam.p_MeV_c, 1))
def test_betarel(self):
print('\nTest beta')
beam = pytlwall.Beam(betarel=0.106)
self.assertEqual(0.106, beam.betarel)
self.assertEqual(1.006, round(beam.gammarel, 3))
self.assertEqual(5.3, round(beam.Ekin_MeV, 1))
self.assertEqual(100.0, round(beam.p_MeV_c, 1))
def test_gammarel(self):
print('\nTest gamma')
beam = pytlwall.Beam(gammarel=1.006)
self.assertEqual(0.109, round(beam.betarel, 3))
self.assertEqual(1.006, round(beam.gammarel, 3))
self.assertEqual(5.6, round(beam.Ekin_MeV, 1))
self.assertEqual(102.9, round(beam.p_MeV_c, 1))
def read_beam(self, cfg_file=None):
if cfg_file is not None:
self.read_cfg(cfg_file)
if self.config.has_section('beam_info') is False:
return None
test_beam_shift = self.config.getfloat('beam_info', 'test_beam_shift')
if self.config.has_option('beam_info', 'betarel'):
betarel = self.config.getfloat('beam_info', 'betarel')
if self.config.has_option('beam_info', 'mass_MeV_c2'):
mass_MeV_c2 = self.config.getfloat('beam_info', 'mass_MeV_c2')
beam = pytlwall.Beam(betarel=betarel,
test_beam_shift=test_beam_shift,
mass_MeV_c2=mass_MeV_c2)
else:
beam = pytlwall.Beam(betarel=betarel,
test_beam_shift=test_beam_shift)
return beam
if self.config.has_option('beam_info', 'gammarel'):
gammarel = self.config.getfloat('beam_info', 'gammarel')
if self.config.has_option('beam_info', 'mass_MeV_c2'):
mass_MeV_c2 = self.config.getfloat('beam_info', 'mass_MeV_c2')
beam = pytlwall.Beam(gammarel=gammarel,
test_beam_shift=test_beam_shift,
mass_MeV_c2=mass_MeV_c2)
else:
beam = pytlwall.Beam(gammarel=gammarel,
test_beam_shift=test_beam_shift)
return beam
if self.config.has_option('beam_info', 'Ekin_MeV'):
Ekin_MeV = self.config.getfloat('beam_info', 'Ekin_MeV')
if self.config.has_option('beam_info', 'mass_MeV_c2'):
mass_MeV_c2 = self.config.getfloat('beam_info', 'mass_MeV_c2')
beam = pytlwall.Beam(Ekin_MeV=Ekin_MeV,
test_beam_shift=test_beam_shift,
mass_MeV_c2=mass_MeV_c2)
else:
beam = pytlwall.Beam(Ekin_MeV=Ekin_MeV,
test_beam_shift=test_beam_shift)
return beam
if self.config.has_option('beam_info', 'p_MeV_c'):
p_MeV_c = self.config.getfloat('beam_info', 'p_MeV_c')
if self.config.has_option('beam_info', 'mass_MeV_c2'):
mass_MeV_c2 = self.config.getfloat('beam_info', 'mass_MeV_c2')
beam = pytlwall.Beam(p_MeV_c=p_MeV_c,
test_beam_shift=test_beam_shift,
mass_MeV_c2=mass_MeV_c2)
else:
beam = pytlwall.Beam(p_MeV_c=p_MeV_c,
test_beam_shift=test_beam_shift)
return beam
import pytlwall
import pandas as pd
import pytlwall.plot_util as plot
# Define Beam
beam = pytlwall.Beam(betarel=0.9, test_beam_shift=0.002)
# Define Frequencies list
freq = pytlwall.Frequencies(fmin=2, fmax=8, fstep=2)
# Define Layers
layers = []
layer0 = pytlwall.Layer(layer_type='CW',
thick_m=0.1,
muinf_Hz=0.,
epsr=1.,
sigmaDC=1.e6,
k_Hz=float('inf'),
tau=0.,
RQ=0.,
boundary=False)
layers.append(layer0)
boundary = pytlwall.Layer(layer_type='V', boundary=True)
layers.append(boundary)
# Define Chamber characteristics
pipe_len_m = 1.
pipe_rad_m = 0.0184
chamber_shape = 'CIRCULAR'
betax = 1.
betay = 1.
def beam_interface():
choice = ''
beam = pytlwall.Beam()
while choice.lower() != 'back' and choice.lower() != 'x':
submenu_beam()
choice = input('Your choice: ')
if choice.lower() == 'beta':
choice = input('Insert beta value ')
try:
value = float(choice)
except ValueError:
print(f'Value used {beam.betarel}')
if value > 0 and value < 1:
beam.betarel = value
else:
print(f'Beta must be between 0 and 1, value used '
f' {beam.betarel}')
elif choice.lower() == 'gamma':
choice = input('Insert gamma value ')
try:
value = float(choice)
except ValueError:
print(f'Value used {beam.gammarel}')
if value > 0:
beam.gammarel = value
else:
print(f'Gamma must be greater than 0, used value '
f' {beam.gammarel}')
elif choice.lower() == 'mass':
choice = input(f'Insert mass value, default = {prot_mass}')
try:
value = float(choice)
except ValueError:
print(f'Value used {beam._m_MeV_c2}')
if value > 0:
beam._m_MeV_c2 = value
else:
print(f'Mass must be greater than 0, used value '
f' {beam._m_MeV_c2}')
elif choice.lower() == 'p':
choice = input('Insert momentum value in MeV/c ')
try:
value = float(choice)
except ValueError:
print(f'Value used {beam.p_MeV_c}')
if value > 0:
beam.p_MeV_c = value
else:
print(f'Momentum must be greater than 0, used value '
f' {beam.p_MeV_c}')
elif choice.lower() == 'ekin':
choice = input('Insert kinetic energy value in MeV ')
try:
value = float(choice)
except ValueError:
print(f'Value used {beam.Ekin_MeV}')
if value > 0:
beam.Ekin_MeV = value
else:
print(f'Kinetic energy must be greater than 0, used value '
f' {beam.Ekin_MeV}')
elif choice.lower() == 'shift':
choice = input('Insert beam test shift in meters ')
try:
value = float(choice)
except ValueError:
print(f'Value used {beam.Ekin_MeV}')
if value > 0:
beam.test_beam_shift = value
else:
print(f'The shift must be greater than 0, used value '
f' {beam.test_beam_shift}')
return beam
def test_momentum_neg(self):
print('\nTest negative value for momentum')
beam = pytlwall.Beam(p_MeV_c=-4.99)
self.assertEqual(1, beam.betarel)
def test_Ekin_neg(self):
print('\nTest negative value for kinetic energy')
beam = pytlwall.Beam(Ekin_MeV=-0.99)
self.assertEqual(1, beam.betarel)
def test_betarel_gt1(self):
print('\nTest beta greater than 1')
beam = pytlwall.Beam(betarel=1.99)
self.assertEqual(1, beam.betarel)
def test_betarel_neg(self):
print('\nTest negative value for beta')
beam = pytlwall.Beam(betarel=-0.99)
self.assertEqual(1, beam.betarel)
def test_string(self):
print('\nTest string value for beta')
beam = pytlwall.Beam(betarel='betarel')
self.assertEqual(1, beam.betarel)
