def get_background(self, bg_file):
x = numpy.linspace(self.parameters['REF_START_BETA'], self.parameters['REF_STOP_BETA'], self.parameters['N_REF_PTS'])
y = []
ch = raw_input('Please disconnect light source. Press Enter to continue :')
for b in x:
print b
self.inst_suite.motor.goto(b)
time.sleep(self.parameters['SETTLE_TIME'])
y.append(self.inst_suite.srs.measure_const_SNR(self.SNR))
self.background = [x, y]
IGRINS_util.save_figure([x], [zip(*y)[0]], [zip(*y)[1]], ['Background Signal'], 'Background', 'Angle (degrees)', 'Signal (V)', bg_file+'.png')
with open(bg_file, 'a') as f:
for angle, reading, dreading in zip(x, zip(*y)[0], zip(*y)[1]):
f.write(str(angle)+', '+str(reading)+', '+str(dreading)+'\n')
ch = raw_input('Replace light source. Press Enter to continue :')
def get_PSF(self, psf_file):
x = numpy.linspace(self.parameters['REF_START_BETA'], self.parameters['REF_STOP_BETA'], self.parameters['N_REF_PTS'])
xpts = []
ypts = []
dypts = []
names = []
retval = []
self.inst_suite.mono.goto_wavelength(self.wl[0])
y = []
print "Starting PSF Scan"
for b, y_bkgnd in zip(self.background[0], self.background[1]):
self.inst_suite.motor.goto(b)
time.sleep(self.parameters['SETTLE_TIME'])
y.append(self.inst_suite.srs.measure_const_SNR(self.SNR) - y_bkgnd[0])
retval.append([x, y])
# Find the maximum value of y, go to that beta angle
print y
print self.background[0]
order = numpy.array(zip(*y)[0]).argsort()
self.inst_suite.motor.goto(self.background[0][order[-1]])
bkgnd = self.background[1][order[-1]]
for wl in self.wl:
print "wavelength = "+str(wl)+"\n"
self.inst_suite.mono.goto_wavelength(wl)
time.sleep(self.parameters['SETTLE_TIME'])
reading = self.inst_suite.srs.measure_const_SNR(self.SNR)
retval.append([wl, reading[0]-bkgnd[0], (reading[1]**2.0+bkgnd[1]**2.0)**(0.5)])
with open(psf_file, 'a') as f:
for angle, reading in zip(*retval[0]):
f.write(str(angle)+', '+str(reading[0])+', '+str(reading[1])+'\n')
for wavelength, reading, dreading in retval[1:]:
f.write(str(wavelength)+ ', '+str(reading)+', '+str(dreading)+'\n')
IGRINS_util.save_figure([retval[0][0]], [zip(*retval[0][1])[0]], [zip(*retval[0][1])[1]], [str(self.wl[0])], 'Background Subtracted Reference PSF', 'Angle (degrees)', 'Signal (V)', psf_file+'.png')
return retval
print "Monochromator, please go to ", wl, " nanometers"
self.inst_suite.mono.goto_wavelength(wl)
time.sleep(10.0)
while (self.inst_suite.mono.read_wavelength() != wl):
time.sleep(2.0)
print "Motor Controller, please go to ", beta+self.alpha, " degrees"
coeff, x, y, dy = self.sweep(beta+self.alpha, psfs[0], (psf_scale_factor[1]/psfs[1][1]), wl, raw_file)
self.readings.append(coeff)
xpts.append(x)
ypts.append(y)
dypts.append(dy)
names.append(str(wl))
with open(data_file, 'a') as f:
f.write(str(wl)+', '+str(beta)+', '+str(coeff)+'\n')
print self.readings[-1]
IGRINS_util.save_figure(xpts, ypts, dypts, names, 'Raw Data', 'Angle (degrees)', 'Signal (V)', raw_file+'.png')
print "Done!"
class ScatteredLight( Mode ):
""" """
def __init__( self, inst_suite ):
"""Sets up the scatter-scan mode"""
self.inst_suite = inst_suite
self.wl = []
self.beta = []
self.nwl = len(self.wl)
self.nbeta = len(self.beta)
def setup(self):
wl_start = -1.0
while (wl_start < 0):
