コード例 #1
0
class RSSModel(Spectrograph):
    """A model describing the RSS spectrograph"""
    def __init__(self,
                 grating_name='None',
                 gratang=45,
                 camang=45,
                 slit=1.0,
                 xbin=2,
                 ybin=2,
                 xpos=-0.2666,
                 ypos=0.0117,
                 wavelength=None):

        # set up the parts of the grating
        self.grating_name = grating_name
        self.slitang = slit

        # set the telescope
        self.set_telescope('RSS')

        # set the collimator
        self.set_collimator('RSS')

        # set the camera
        self.set_camera('RSS', wavelength=wavelength)

        # set the detector
        self.set_detector('RSS', xbin=xbin, ybin=ybin, xpos=xpos, ypos=ypos)

        # set up the grating
        self.set_grating(self.grating_name)

        # set up the slit
        self.set_slit(self.slitang)

        # set up the grating angle
        self.gratang = gratang
        self.camang = camang

    def alpha(self, da=0.23):
        """Return the value of alpha for the spectrograph"""
        return self.gratang + da

    def beta(self, mF=4.2e-5, db=0.00):
        """Return the value of beta for the spectrograph

           Beta_o=(1+fA)*(camang)-gratang+beta_o
        """
        return (1 + mF) * self.camang - self.alpha() + db

    def focallength(self, focallength=328.0, wavelength=None):
        """The camera focal lenght set oaccording to the following
           Wavelength should be provided in angstroms

        """
        if wavelength is None:
            return focallength

        L = (wavelength - 4000.0) / 1000.0
        return 327.66 + -0.1861 * L + 0.5061 * L**2 + -0.2100 * L**3 + 0.0365 * L**4 + -0.0023 * L**5

    def get_wavelength(self, xarr, gamma=0.0):
        """For a given spectrograph configuration, return the wavelength coordinate
           associated with a pixel coordinate.

           xarr: 1-D Array of pixel coordinates
           gamma: Value of gamma for the row being analyzed

           returns an array of wavelengths in mm
        """
        d = self.detector.xbin * self.detector.pix_size * (
            xarr - self.detector.get_xpixcenter())
        dbeta = -np.degrees(np.arctan(d / self.camera.focallength))
        return self.calc_wavelength(self.alpha(),
                                    -self.beta() + dbeta,
                                    gamma=gamma)

    def set_telescope(self, name='RSS'):
        if name == 'RSS':
            self.telescope = Optics(name=name, focallength=46200.0)
        elif name == 'SALT':
            self.telescope = Optics(name=name, focallength=46200.0)
        else:
            raise RSSError('%s is not a supported Telescope' % name)

    def set_collimator(self, name='RSS', focallength=630.0):
        if name == 'RSS':
            self.collimator = Optics(name=name, focallength=focallength)
        else:
            raise RSSError('%s is not a supported collimator' % name)

    def set_camera(self, name='RSS', wavelength=None):
        if name == 'RSS':
            self.camera = Optics(name=name, focallength=self.focallength())
        else:
            raise RSSError('%s is not a supported camera' % name)

    def set_detector(self,
                     name='RSS',
                     geom=None,
                     xbin=2,
                     ybin=2,
                     xpos=0,
                     ypos=0):
        if name == 'RSS':
            if geom:
                pass
            else:
                # version 1
                # ccd1=Spectrograph.CCD(name='CCD1',  xpix=2032, ypix=4102, pix_size=0.015, xpos=-32.19, ypos=0)
                # updated on 20120325
                ccd1 = CCD(name='CCD1',
                           xpix=2032,
                           ypix=4102,
                           pix_size=0.015,
                           xpos=-32.40,
                           ypos=0.0486)
                ccd2 = CCD(name='CCD1',
                           xpix=2032,
                           ypix=4102,
                           pix_size=0.015,
                           xpos=0,
                           ypos=0)
                ccd3 = CCD(name='CCD1',
                           xpix=2032,
                           ypix=4102,
                           pix_size=0.015,
                           xpos=32.218,
                           ypos=0.0196)
            self.detector = Detector(name=name,
                                     ccd=[ccd1, ccd2, ccd3],
                                     xbin=xbin,
                                     ybin=ybin,
                                     xpos=xpos,
                                     ypos=ypos,
                                     plate_scale=0.224)
        else:
            raise RSSError('%s is not a supported detector' % name)

    def set_grating(self, name=None):
        if name == 'PG0300':
            self.grating = Grating(name='PG0300', spacing=300)
        elif name == 'PG0900':
            self.grating = Grating(name='PG0900', spacing=903.20)
        elif name == 'PG1300':
            self.grating = Grating(name='PG1300', spacing=1301.20)
        elif name == 'PG1800':
            self.grating = Grating(name='PG1800', spacing=1801.65)
        elif name == 'PG2300':
            self.grating = Grating(name='PG2300', spacing=2302.15)
        elif name == 'PG3000':
            self.grating = Grating(name='PG3000', spacing=2999.98)
        else:
            raise RSSError('%s is not a supported RSS grating' % name)

    def set_slit(self, slitang=1.0):
        self.slit = Slit(name='LongSlit', phi=slitang)
        self.slit.width = self.slit.calc_width(self.telescope.focallength)
コード例 #2
0
 def set_slit(self, slitang=1.0):
     self.slit = Slit(name='LongSlit', phi=slitang)
     self.slit.width = self.slit.calc_width(self.telescope.focallength)
コード例 #3
0
ファイル: RSSModel.py プロジェクト: bsipocz/pyspectrograph
class RSSModel (Spectrograph):

    """A model describing the RSS spectrograph"""

    def __init__(self, grating_name='None', gratang=45, camang=45, slit=1.0,
                 xbin=2, ybin=2, xpos=-0.2666, ypos=0.0117, wavelength=None):

        # set up the parts of the grating
        self.grating_name = grating_name
        self.slitang = slit

        # set the telescope
        self.set_telescope('RSS')

        # set the collimator
        self.set_collimator('RSS')

        # set the camera
        self.set_camera('RSS', wavelength=wavelength)

        # set the detector
        self.set_detector('RSS', xbin=xbin, ybin=ybin, xpos=xpos, ypos=ypos)

        # set up the grating
        self.set_grating(self.grating_name)

        # set up the slit
        self.set_slit(self.slitang)

        # set up the grating angle
        self.gratang = gratang
        self.camang = camang

    def alpha(self, da=0.23):
        """Return the value of alpha for the spectrograph"""
        return self.gratang + da

    def beta(self, mF=4.2e-5, db=0.00):
        """Return the value of beta for the spectrograph

           Beta_o=(1+fA)*(camang)-gratang+beta_o
        """
        return (1 + mF) * self.camang - self.alpha() + db

    def focallength(self, focallength=328.0, wavelength=None):
        """The camera focal lenght set oaccording to the following
           Wavelength should be provided in angstroms

        """
        if wavelength is None:
            return focallength

        L = (wavelength - 4000.0) / 1000.0
        return 327.66 + -0.1861 * L + 0.5061 * L ** 2 + -0.2100 * L ** 3 + 0.0365 * L ** 4 + -0.0023 * L ** 5

    def get_wavelength(self, xarr, gamma=0.0):
        """For a given spectrograph configuration, return the wavelength coordinate
           associated with a pixel coordinate.

           xarr: 1-D Array of pixel coordinates
           gamma: Value of gamma for the row being analyzed

           returns an array of wavelengths in mm
        """
        d = self.detector.xbin * self.detector.pix_size * (xarr - self.detector.get_xpixcenter())
        dbeta = -np.degrees(np.arctan(d / self.camera.focallength))
        return self.calc_wavelength(self.alpha(), -self.beta() + dbeta, gamma=gamma)

    def set_telescope(self, name='RSS'):
        if name == 'RSS':
            self.telescope = Optics(name=name, focallength=46200.0)
        elif name == 'SALT':
            self.telescope = Optics(name=name, focallength=46200.0)
        else:
            raise RSSError('%s is not a supported Telescope' % name)

    def set_collimator(self, name='RSS', focallength=630.0):
        if name == 'RSS':
            self.collimator = Optics(name=name, focallength=focallength)
        else:
            raise RSSError('%s is not a supported collimator' % name)

    def set_camera(self, name='RSS', wavelength=None):
        if name == 'RSS':
            self.camera = Optics(name=name, focallength=self.focallength())
        else:
            raise RSSError('%s is not a supported camera' % name)

    def set_detector(self, name='RSS', geom=None, xbin=2, ybin=2, xpos=0, ypos=0):
        if name == 'RSS':
            if geom:
                pass
            else:
                # version 1
                #ccd1=Spectrograph.CCD(name='CCD1',  xpix=2032, ypix=4102, pix_size=0.015, xpos=-32.19, ypos=0)
                # updated on 20120325
                ccd1 = CCD(name='CCD1', xpix=2032, ypix=4102, pix_size=0.015, xpos=-32.40, ypos=0.0486)
                ccd2 = CCD(name='CCD1', xpix=2032, ypix=4102, pix_size=0.015, xpos=0, ypos=0)
                ccd3 = CCD(name='CCD1', xpix=2032, ypix=4102, pix_size=0.015, xpos=32.218, ypos=0.0196)
            self.detector = Detector(name=name, ccd=[ccd1, ccd2, ccd3], xbin=xbin, ybin=ybin,
                                     xpos=xpos, ypos=ypos, plate_scale=0.224)
        else:
            raise RSSError('%s is not a supported detector' % name)

    def set_grating(self, name=None):
        if name == 'PG0300':
            self.grating = Grating(name='PG0300', spacing=300)
        elif name == 'PG0900':
            self.grating = Grating(name='PG0900', spacing=903.20)
        elif name == 'PG1300':
            self.grating = Grating(name='PG1300', spacing=1301.20)
        elif name == 'PG1800':
            self.grating = Grating(name='PG1800', spacing=1801.65)
        elif name == 'PG2300':
            self.grating = Grating(name='PG2300', spacing=2302.15)
        elif name == 'PG3000':
            self.grating = Grating(name='PG3000', spacing=2999.98)
        else:
            raise RSSError('%s is not a supported RSS grating' % name)

    def set_slit(self, slitang=1.0):
        self.slit = Slit(name='LongSlit', phi=slitang)
        self.slit.width = self.slit.calc_width(self.telescope.focallength)
コード例 #4
0
ファイル: RSSModel.py プロジェクト: bsipocz/pyspectrograph
 def set_slit(self, slitang=1.0):
     self.slit = Slit(name='LongSlit', phi=slitang)
     self.slit.width = self.slit.calc_width(self.telescope.focallength)
コード例 #5
0
class HRSModel (Spectrograph):
   """HRSModel is a class that describes the High Resolution Specotrgraph  on SALT
   """

   def __init__(self, grating_name='hrs', camera_name='hrdet', slit=2.0,  \
                      order=83, gamma=None, xbin=1, ybin=1, xpos=0.00, ypos=0.00):
       
       #set up the parts of the grating
       self.grating_name=grating_name


       #set the telescope
       self.set_telescope('SALT')

       #set the collimator
       self.set_collimator('hrs')

       #set the camera
       self.set_camera(camera_name)

       #set the detector
       self.set_detector(camera_name,  xbin=xbin, ybin=ybin, xpos=xpos, ypos=ypos)

       #set up the grating
       self.set_grating(self.grating_name, order=order)
 
       #set up the slit
       self.set_slit(slit)

       #set up the grating angle
       if gamma is not None:
          self.gamma=gamma

   def alpha(self, da=0.00):
       """Return the value of alpha for the spectrograph"""
       return self.grating.blaze+self.gamma 

   def beta(self, db=0):
       """Return the value of beta for the spectrograph
          
          Beta_o=(1+fA)*(camang)-gratang+beta_o
       """
       return self.grating.blaze-self.gamma+db

   def get_wavelength(self, xarr, gamma=0.0):
       """For a given spectrograph configuration, return the wavelength coordinate
          associated with a pixel coordinate.   

          xarr: 1-D Array of pixel coordinates
          gamma: Value of gamma for the row being analyzed

          returns an array of wavelengths in mm
       """
       d=self.detector.xbin*self.detector.pix_size*(xarr-self.detector.get_xpixcenter())
       dbeta=np.degrees(np.arctan(d/self.camera.focallength))
       return self.calc_wavelength(self.alpha(), -self.beta()+dbeta, gamma=gamma)
      


   def set_telescope(self, name='SALT'):
       if name=='SALT':
           self.telescope=Optics(name=name, focallength=46200.0)
       else:
           raise SpectrographError('%s is not a supported Telescope' % name)

   def set_collimator(self, name='hrs', focallength=2000.0):
       if name=='hrs':
           self.collimator=Optics(name=name, focallength=focallength)
       else:
           raise SpectrographError('%s is not a supported collimator' % name)

   def set_camera(self, name='hrdet', focallength=None):
       if name=='hrdet':
           self.camera=Optics(name=name, focallength=402.26)
           self.gamma = 2.43
       elif name=='hbdet':
           self.camera=Optics(name=name, focallength=333.6)
           self.gamma = 2.00
       else:
           raise SpectrographError('%s is not a supported camera' % name)


   def set_detector(self, name='hrdet', geom=None, xbin=1, ybin=1, xpos=0, ypos=0):
       if name=='hrdet':
               ccd=CCD(name='hrdet',  xpix=4122, ypix=4112, pix_size=0.015, xpos=0.00, ypos=0.00)
               self.detector=Detector(name=name, ccd=[ccd], xbin=xbin, ybin=ybin, \
                                      xpos=xpos, ypos=ypos)
       elif name=='hbdet':
               ccd=CCD(name='hrdet',  xpix=2100, ypix=4112, pix_size=0.015, xpos=0.00, ypos=0.00)
               self.detector=Detector(name=name, ccd=[ccd], xbin=xbin, ybin=ybin, \
                                      xpos=xpos, ypos=ypos)
       else:
           raise SpectrographError('%s is not a supported detector' % name)

   def set_grating(self, name=None, order=83):
       if name=='hrs':
          self.grating=Grating(name='hrs', spacing=41.59, blaze=76.0, order=order)
	  self.set_order(order)
       elif name=='red beam':
          self.grating=Grating(name='red beam', spacing=855, blaze=0, order=1)
          self.alpha_angle = 17.5
	  self.set_order(1)
       elif name=='blue beam':
          self.grating=Grating(name='blue beam', spacing=1850, blaze=0, order=1)
          self.alpha = 24.6
	  self.set_order(1)
       else:
          raise SpectrographError('%s is not a supported grating' % name)
      
   def set_order(self, order):
       self.order=order
       self.grating.order = order

   def set_slit(self, slitang=2.2):
       self.slit=Slit(name='Fiber', phi=slitang)
       self.slit.width=self.slit.calc_width(self.telescope.focallength)
コード例 #6
0
 def set_slit(self, slitang=2.2):
     self.slit=Slit(name='Fiber', phi=slitang)
     self.slit.width=self.slit.calc_width(self.telescope.focallength)