Red Channel Details

Optical Layout

Optical Layout

Aperture Plates and Filters

Aperture Plates and Filters

CCD Parameters

ITL/STA Detector Information

The Red Channel detector has a glow. Please see below for details.

Red Channel Gratings

Grating (lines/mm)Blaze (order/λ Å)Blaze Angle(°)Anamorphic MagR (@ Blaze, 1" slit)Resolution (Å or Å/order)Dispersion (Å/pix)Coveragea (Å)

Echellette

11th/523526.8 32701.60.58599

150

1st/48002.20.9823021.06.376574b

270

1st/73005.90.9464011.43.593705b

300

1st/48004.30.9646010.33.213313b

600

1st/48008.60.929605.01.631682

600

1st/631011.40.8912904.901.641692

1200

1st/576721.10.8026202.200.82846

1200

1st/770028.70.7339301.960.80826

1200

1st/900032.70.6750971.770.78805

Lo-res Ech.

7th/51348.6 9205.61.741796

Hi-res Ech.

18th/579025.7 36201.60.67691

a Coverage is for the full 1032 columns.

b May be limited by the blue or red cutoffs or the free spectral range.

 

Theorectical Blaze Functions

 

Red Channel Theoretical Blaze Functions: Red Channel Theoretical Blaze FunctionsRed Channel Theoretical Blaze Functions: Red Channel Theoretical Blaze Functions

 

Or view a postscript plot or a pdf plot of the theoretical blaze functions.

 

Spectrograph Throughput

An illustration of the expected count rate (for a flat-spectrum (in F_nu) source of 1 micro-Jansky) per Angstrom is shown below.

 

The same data can be found in PDF form and in tabulated form (Blue ChannelRed Channel).

 

Red Channel Detector Glow

 

In Fall 2014, the Red Channel detector developed a "glow" on the blue edge of the detector.  This signal is well localized to the corner of the detector, so point source observations and observations focused on the red portion of the detector will likely be minimally effected.  Observations of extended sources and programs that utilize the bluest portion of the observed spectrum may be impacted by the signal and its associated noise.

A two dimensional image of the bluest portion of the detector is shown below (the spectral direction of the detector runs in the Y-direction, so blue is up in the figure).  The image is a bias-corrected dark image. The counts in the "glow" in the upper right depends on exposure time, so observers using long integrations are encouraged to take dark frames.   On the right, we show the median counts in this 600s bias-subtracted dark frame in the last 3 columns; again, the bluest portion of the red channel image is at higher Y-pixel values.  

Red Channel Glow ImageRed Channel Glow Counts

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Cross Dispersed Echellette Mode

The Red Channel Echellette grating gives complete coverage from 4300-8900 Å at a spectral resolution of a near-constant 90 km/sec when using a 1"x20" slit. Nominally it works in orders 7-13 but it can be used in orders 6-13 with some sacrifice of coverage in the blue and some order overlap between orders 6 and 7. Due to the Red Channel detector glow, we do not recommend the use of Echellette at this time.

The echellette should be used near its blaze at a tilt of 4.555 V (confirm, old value = 4.675), corresponding to a central wavelength of about 5250 Å in order 11. The cross-disperser should be set at 480 to put order 7 at the top of the frame; to get order 6 at the top, set the cross-disperser at 430.

Sample Echellette flat-field image: Blue is at the bottom and to the left. Orders are marked. This image was taken at a cross-disperser setting of 480. By judicious placement of the camera in the cross-dispersion direction, it is possible to include order 6, which is off the top of the frame, at the expense of a few hundred A in order 13.

Sample Echellette HeNeAr image: Strong Helium comparison lines are marked.