LRIS Red CCD Image Readout Problem Update (2009-Nov-9)

The LRIS Red CCD and electronics were shipped back to the W.M. Keck Observatory 4 Nov. 2009 and was reinstalled in LRIS in time for the upcoming LRIS run starting 9 Nov. 2009. Although the charge transfer efficiency problem is not fixed, the UCSC team has made tremendous strides to recover a half of the detector that is closest to the gap. This means that in two-amp readout mode about 2/3 of the illuminated area of detector 1-12 is usable. As a reminder, the region on which the longslit spectrum typically falls is not affected as it falls on detector 1-13 (functioning normally). Imaging or multislit spectroscopic science programs requiring the entire FOV are impacted by this problem. For observers who want or need the full LRIS FOV to achieve their science goals, the array may be read out in single-amp mode to recover the entire LRIS Red FOV at the cost of increasing the readout time, as indicated in the table below.. Although the UCSC team was able to recover half of the CCD, the serial CTE, gain, effective readnoise, and linearity is degraded relative to values determined at commissioning. Below are preliminary performance results which will be confirmed after the system is re-installed in LRIS. These performance numbers mostly pertain to the 1-12A half of the CCD. The performance of the second half (1-12B) has not been quantified completely but is in general worse. If observers want to use the full array, we are recommending that detectors be readout in single-amp mode. In single-amp mode, the 1-12A specifications will apply to both A and B sides of detector 1-12.

The gain and readnoise for 1-12A are now 1.224 (e-/DN) and 6.52 (e-/rms), while at commissioning three months prior the values were 1.022 (e-/DN) and 4.67 (e-/rms). The UCSC team also measured gain and readnoise for 1-12B: current - 1.171 (e-/DN) and 12.9 (e-/rms) vs before 0.955 (e-/DN) and 3.79 (e-/rms).

The CTE for 1-12A as measured using deferred charge (ratio of signal in the last column to that left behind in the over scan) is not constant, but it depends on signal level. The main effect of the smearing will spread 13%, 2%, and 6% of the object flux in the spatial direction for signal levels of < 250, 1000-15000, and >15000 DN, respectively. This flux will be smeared into the sky where it will be difficult or impossible to recover. The bad CTE at high intensity levels will be a problem for flats as there are many sharp features in the flats and those will not be recovered well with bright flat exposures that smear.

Detector 1-12A is linear to 50,000 DN, while 1-12B appears to be non-linear. Once LRIS is installed in the instrumen, we will be able to better quantify linearity. 

READOUT TIMES:
AMPMODE   XBIN   YBIN	Readout time   Total (Erase + Readout)
--------  ----   ----   ------------   -----------------------
DUAL:L+R    1      1           83s       100s
SINGLE:L    1      1          153s       170s

DUAL:L+R    2      1           51s        68s
SINGLE:L    2      1           90s       107s

DUAL:L+R    1      2           45s        62s
SINGLE:L    1      2           81s        98s

DUAL:L+R    2      2           30s	  47s
SINGLE:L    2      2           49s        66s

LRIS Red CCD Image Readout Problem Update (2009-Oct-30)
The UCSC team checked the internal connections and they all appear to be good and replaced a cable. After cooling down and testing, the problem persists. In the short term, we have decide that the dewar will be shipped back to Keck Nov 4 so that the good ccd (1-13) may be used for the upcoming science run starting Nov 9. While LRIS is on sky, the UCSC team will have two parallel troubleshooting activities. Test an engineering grade detector in their test setup to determine whether broken connections can reproduce the problem. Second, they will play with waveforms on CCD 1-12 (poorly performing detector) while LRIS is installed. If the waveforms can be adjusted to obtain normal readouts, then 1-12 can be made available for use during the November run.

Observers who will be using slitmasks, should be aware which region is available on the red side. This slitmask image shows where slits may be placed to land on the good CCD on the red side. The image is example Autoslit3 output. You are not limited to using just the top half of a slitmask but you should consider the locations of your highest priority objects.


LRIS Red CCD Image Readout Problem Update (2009-Oct-26)
The dewar and associated electronics arrived at UCSC Monday morning. Upon arrival, the dewar was opened after backfilling with ultra-dry N2, and internal cabling and connectors were inspected. UCSC staff also examined the wire bonds on the CCD, and a series of photographs that show that all bond wires appear to be intact. Thus far, nothing obvious was discovered in the initial internal component investigation.

Late Monday, UCSC staff re-assembled everything, replacing a flex cable with a spare. The dewar is now on the vacuum pump, and the plan is to cool the dewar Tuesday morning with testing to follow in the afternoon.


LRIS Red CCD Image Readout Problem Update (2009-Oct-24)
The LRIS Red Dewar and electronics were removed from LRIS following the last night on sky in October and was shipped back to UCSC for further investigation by the instrument team. Upon arrival at UCSC, the dewar will immediately be opened and internal components investigated. In parallel, the electronics will be tested with their test dewar to ensure proper operation. At this time, we fully expect the dewar to return to Keck for use during the November run with at least one normally functioning CCD.

LRIS Red CCD Image Readout Problem Update (2009-Oct-10)
As most of you are aware, one of the CCDs in the new LRIS Red detector mosaic is experiencing a charge transfer efficiency problem. Troubleshooting has determined that the problem is internal to the dewar. Friday, we decided to send the LRIS Red dewar to UCSC to attempt a repair of the poorly performing CCD immediately following the current LRIS run ending the morning of Oct 24. The dewar and associated electronics will be removed from LRIS on Oct 24 and then shipped to UCSC on Oct 25. At UCSC, the dewar will be opened and internal components inspected. Small repairs will be completed if the identified issues are obvious and easily fixed. Repairs that will require parts with long lead times or otherwise deemed longer term will be deferred to a later date. If repairs are deferred, the dewar will be returned as-is to the observatory so that at least one working Red CCD is available for upcoming science runs.

At this time, we fully expect the LRIS Red CCD mosaic to be ready in time for observing during the November and December observing Runs. We expect the Red side to function with at least the currently 1 good CCD, and hopefully, a repair of the poorly performing CCDs will be successful. As with any repair mission, there is a small risk that the system will not be available during your observing session due to circumstances as yet unknown, but we firmly believe the risk of LRIS Red being unavailable is very low. We will of course notify observers of any changes critical to LRIS red observing, and please view the LRIS News pages for regular updates.


LRIS Red CCD Image Readout Problem (2009-Sep-14)
One of the two CCDs in the LRIS red mosaic is reading out incorrectly for undetermined reasons. The problem affects half of the red mosaic and is characterized by a general smearing of the image in the vertical direction, as shown in the bottom half of the accompanying image of a longslit spectrum. Data from the affected detector are probably unusable. Fortunately for longslit observers, the region on which the longslit spectrum typically falls is not affected. Our investigation so far has eliminated all of the easily-accessible components of the CCD readout chain as culprits. Further testing of dewar electronics will take place after the completion of the September LRIS run.

Updated Versions of multi-HDU Readers Handle Binned Images (2009-Jun-19)
The original versions we provided of the IRAF and IDL routines for reading the new LRIS images were unable to read data acquired in binned formats. We have now given both tools the ability to read binned data. Download the latest versions of the tools in the links shown below.

IDL Routine Reads multi-HDU LRIS Images (2009-Jun-17)
As a service to the LRIS community, we provide an IDL routine which will read mutli-HDU LRIS images and assemble them into a 2-D array, with optional bias subtraction. Download the readmhdufits.pro routine here.

Sample LRIS Images Available (2009-Jun-17)
As part of the May 2009 upgrade to the LRIS Red Dewar, the instrument datataking system has been revamped to output data in a different format. LRIS images now consist of multiple "header data units" (HDUs), one per CCD output amplifier. These images require different handling from the old IRAF images, which were written as simple FITS files combining data from all amplifiers. As a service to the LRIS user community, WMKO is providing a set of sample images to allow observers to work with the new data format. The collection can be downloaded here and includes both raw, multi-HDU images as delivered by the datataking system and simple FITS images generated using an IRAF task.

KECK.LRIS IRAF Package Updated for Red Upgrade (2009-Jun-09)
The keck.lris IRAF package has undergone a complete revision to support the new image formats now generated by the LRIS red and blue datataking systems. See this article for full details. Users may download the entire keck package here.

LRIS Red Upgrade: Big Red Arrives (2009-May-14)
The LRIS Red Upgrade project started the installation phase earlier this month. In the last two weeks, the old LRIS red camera and associated electronics were removed from LRIS. The new camera and dewar arrived today and is headed to the summit on Friday. Thus far, the installation is on schedule with first light on slated for June 6 & 7, and the first official science night scheduled for June 14. Observers have been asking about the improved FOV and spectral coverage. At this time we have not verified the pixel scale or increase in coverage. The predictions are that the pixel scale will be around 0.13 arcsec/pix with the change from 24 to 15 micron size pixels. Given the mosaic detector size, the new camera should increase the spectral coverage by around 25%.

Blue side video board noise (2009-March-30)
The video processor board on the left most CCD of LRIS Blue failed and was replaced with a spare. The spare board exhibits low level noise as seen in this bias image. The stddev in the bias is 2.7 in the noisy amp relative to 2.1 for the right most amplifiers. We are in the process of repairing or replacing the old video board. The failed board was sent to the manufacturer for assessment.

Red Side Halos Problem fixed (2009-March-20)
We removed the LRIS red camera and found some condensation on both sides of the dewar window. The dewar window was cleaned, and the dewar was pumped out. Following cool down, the halos reported on 2009-Feb-15 were no-longer detected.

Starlists Now Allow PA Info (2009-Feb-20)
For years, observers have been forced to provide their position angle information to the OA verbally. The new starlist file format now permits you to enter the position angle for your target using the ROTMODE and ROTDEST keywords. Here is an example of how to specify the position angle: 
# slitmask with specified rotator position
PA_targ_name    00 24 00.00 +16 00 00.00 2000.0 rotdest=123.45 rotmode=pa

# target observed at parallactic angle
VA_targ_name    12 34 56.78 +01 23 45.67 2000.0 rotdest=0.0 rotmode=vertical

Red Side Halos (2009-Feb-15) -Fixed 2009 March 20
Images of point sources on the red side only have halos at a level of 1% of the source peak flux. An image of the grid of holes mask shows clearly this effect. This effect is also present in spectra on the red side. We suspect at this time that condensation is present on the red side dewar window. The Red side camera will be removed in early March to address this problem.

New Slit Guider Camera commissioned. (2009-Feb-15)
A new slit guiding camera was commissioned for use during engineering nights on 12 and 14 Feb. The new slit guider is rotated such that the slit is 29.5 degrees relative to the columns on the detector. The new camera is sensitive enough to reach a signal-to-noise of 10 in 1s on a star of v-mag=19.5. The unvignetted FOV is expected to be 1.6 arcmin diameter, and at 40% vignetting, the FOV is expected to be 2.2 arcmin. For observers who use pickoff mirrors, the new default pixel location on the guide camera for a pickoff mirror guide star is 459 618. A new slitb pointing origin was also defined to move the star away from a bad column on the red side detector. An image of M13 is available here. The dark line going through the field is a 1.0 arcsec wide long slit.

New Hatch Commissioned but has light leaks (2009-Feb-15)
All observers are advised to acquire internal calibrations after the dome lights are turned off because the hatch has light leaks. As part of the new guider upgrade, a new hatch was needed to house all the new guider optics. The new hatch was tested during engineering nights on 12 and 14 Feb, and it was determined that it has light leaks. An internal G filter pseudo-flat acquired with all internal lamps off, hatch closed, and dome lights on revealed the light leaks seen in the image here. The peak flux from the light leaks is ~3000 ADU, and it varies as a function of rotator position, telescope elevation, and telescope azimuth. This problem will be address in either early or late March.

831/8200 Grating available (2009-Jan-22)
We received and commissioned a new 831/8200 grating. The grating is available for general use, and there is an option to select the grating in the LRIS configuration form.

LRIS slit guider upgraded (2008-Dec-23)
We have commissioned a new slit guide camera and electronics for LRIS. This was an emergency commissioning of a new guider camera because the old slit guider camera was flooded with glycol after a coolant connector seal failed. The old camera was a Photometrics CH250. The new camera is a Photometrics CH350. New electronics are part of the commissioning and the electronics are not inside the electronics bay. The new camera has a wider FOV with significant vignetting in the corners (see image). It is also a more sensitive camera with a higher gain and less readnoise than the old camera by a factors of 3 and 4, respectively. With the old guider, objects were centered at pixel 191, 143. Last night's commissioning result show that objects should now be centered at pixel 277, 290. In the MAGIQ software, Observing Assistants should see two cameras: one for LRIS lris50m (as before), and another called lrisSlit for the slit-guider. Both MAGIQ and XGUIDE were updated and released for use.

831/8200 Grating status (2008-Nov-13)
A new 831/8200 grating was ordered and is scheduled to arrive in January 2009. It was determined that the old grating could not be used inside LRIS due to the risk of additional fracturing. The new grating will be made from the same master grating as the original LRIS 831/8200 grating.

Desktop Menu Returns (2008-Nov-13)
The desktop menu or background menu is now used to run the instrument, replacing the LRIS workspace menu that appeared in the upper left corner of every display.

New IRAF tasks make LRIS mask alignment more convenient (2008-Nov-03)
Three new tasks are now available in the keck.lris package to assist observers with aligning masks: All three tasks presume that the file listing the box coordinates is named slitmask.box, where slitmask is the name of the slitmask as shown in the SLITNAME keyword.

Grating 831/8200 damaged and unavailable (2008-Oct-9)
The 831/8200 grating is damaged and has been temporarily taken out of service. Three fragments, each roughly one cubic inch in size, were found in the corners of the grating. We are in the process of assessing the grating substrate to determine the risk of future fragmentation, and we are exploring options for repairing and replacing the grating. If we determine that the only solution is to replace the grating, the time frame for replacing it is 10 weeks. If we determine that the damage will not impact science and there is no risk of future fragmentation, then the time frame for repair is 6 weeks.

Web page makeover (2008-Aug-19)
All LRIS web documentation was updated to the new instrument page format. If you find content or pages missing, please contact your support astronomer.

New I band filter installed (2008-Jul-11)
A new I band filter is available for use with LRIS. This filter is an interference type filter with a relatively square passband with FWHM from 6986-8204 Angstroms. Please see the filters on-line documentation to view the transmission curve.

NB4000 filter has a long-wavelength leak (2008-Jul-10)
Observers noted that the NB4000 filter has developed a long-wavelength leak past roughly 7000 Angstroms. Engineering data of this filter was acquired on 8 July 2008 to characterize the long wavelength leak. Spectroscopic flats of the internal halogen lamp using the 1 arcsecond long-slit and 150/7500 grating tuned to 7000 angstroms were acquired with and without the filter in beam. The filter spectrum was divided by the flat to produce a relative transmission spectrum. Please see filters to view the plot.

New MAGIQ Guider Software released (2008-Jul-7)
We are in the process of upgrading the acquisition and guide cameras on all WMKO instruments, and LRIS has been selected as the next instrument to receive a hardware upgrade. An important element of our upgrade strategy is to first deploy the MAGIQ software for operation with the two existing LRIS guide cameras. The new software provides all of the functionality of the existing acquisition and guiding software while improving routine tasks such as star list management, field identification, acquisition, and guiding. Successful testing of MAGIQ software with the existing slit viewing and offset guiders was completed on May 27 and June 27, respectively. The MAGIQ software is released for use, and you are encouraged to use MAGIQ during your observing sessions. The hardware portion of the guider upgrade will take place at a later date.

Slitmask Design Software (2008-Apr-18)
At this time, it is recommended that observers use the Autoslit software to design slitmasks for LRIS. Dr. Arjun Dey and his observing team compared the mask designs that were output from both autoslit and the ucsc lris package and found significant difference in the slit locations. The specific recommendation by the author of the UCSCLRIS package is that observers use the AUTOSLIT field mapping until the UCSCLRIS software is updated.

FVWM with LRIS (2007-Aug-29)
FVWM is a multiple virtual desktop window manager for the X windows system which is now in use with all LRIS accounts. With the switch from open-windows to FVWM, a couple of other changes were required. Most instrument operations are now found on the "LRIS workspace menu" which is automatically launched on startup and will be located in the upper left corner of each display. The "LRIS workspace menu" replaces the open-windows background menu, and is similar to the "DEIMOS workspace menu." Second, clicking on the virtual desktop will bring up a FVWM background menu which is used mostly to start VNC, start local xterms, start browsers, and instrument menus. The FVWM is not used to run the LRIS software, and there are no options provided on that menu to run the instrument. The web documentation has been updated with these changes, but please let your SA know of any inconsistencies.

Blue Side compass rose (2007-Aug-29)
A compass rose that works with the blue side figdisp display is released for observer use.

Grating offsets applied (2007-Aug-08)

Grating offsets are now in use so that the actual central wavelength is closer to the desired central wavelength. Each grating and port combination requires a different offset. All gratings in all ports have been mapped. For most grating and port combinations, the accuracy to which the grating is positioned is better than 10 angstroms. Gratings in port 3 may exhibit larger offsets of up to 50 A. In the past, observers' noted offsets from 100 to 1000 Angstroms. If you notice a large offsets of > 20 Angstroms in the desired central wavelength compared to the actual central wavelength, please inform you support astronomer and add a comment to your post observing comments form.


I filter broke. (2007-July-20)

On 18 July, the I filter was found broken inside the instrument. One of the largest pieces was lodged in the grism mechanism and was preventing movement of the grism mechanism. There is a 3-4 mm gouge in the back surface of the 600 line grism. Fortunately, the gouge is located at the very edge of the grism and this should not alter the grisms optical performance. Because the filter pieces tumbled inside LRIS for at least half a night, we are taking the time to inspect all optical surfaces that may have been exposed to filter fragments. In the long term, we expect to have LRIS ready for operation by the start of the next LRIS observing session which begins 8 Aug. LRIS will be without an I band filter on the red side until a suitable replacement is acquired.


ADC and LRIS together at last (2007-July-09)

Please see the ADC docs.

LRIS-ADC MODE: The default observing mode for LRIS as of semester 2007B is to use LRIS with the new Keck I Atmospheric Dispersion Compensator (ADC), regardless of what you requested on your observing proposal. The presence of the ADC changes the focal plane scale of LRIS by a small but measureable amount, meaning that:

(a) old slitmasks designed for use without the ADC should not be used with the ADC, and

(b) new slitmasks must be designed with software that accounts for the ADC.

If you plan to use LRIS slitmasks, then you must download the new, ADC-compatible version of Judy Cohen's AUTOSLIT software (v3.09) or the similar FABMASK package by Drew Phillips. Please contact your support astronomer for ADC-related questions.


LRIS Blue side shutter fixed, and CCD readout problem fixed (2007-May-6)
The blue side shutter was fixed between 31 April and May 5. A bushing on the shutter was worn. and galling in the bushing was causing the shutter to stick. A dry lube was applied to the bushing.

The CCD can be read-out using all four amplifiers following a repair of the CCD signal cable. The ccd readout problem experienced was that the second amplifier did not see the signal. This meant that the detector had to be read-out in single amp mode, which is slower. During the shutter repair, technicians discovered that the CCD cable had a busted wire. Re-soldering the wire to the connector has fixed the readout problem.


LRIS Blue side CCD readout problem (2007-April-18)
As of April 17, one of the amplifiers on the "left" CCD of the blue-side mosaic is failing to read out properly. Troubleshooting suggests that the problem is a bad cable between the dewar and the saddlebag. Since we have no spare for the cable, we are unable to repair this fault until the run is over. In the meantime, the workaround is to read out both blue CCDs using the "right" amplifiers only. The command to put the blue side into this mode is: 
mb amplist=2,4,0,0
Readout times will be double the usual for two-amp mode on the blue side.

LRIS Blue side shutter is stuck open (2007-April-16)
The LRIS blue channel shutter has failed again, and work to replace the shutter will begin on 23 April 2007. The LRIS blue channel shutter should be available in time for the next run which starts 7 May 2007.

For now, the trapdoor may be used as a shutter for the blue side.In this mode, red side data may still be acquired simultaneously. Your SA will review the scripts with you upon your arrival, but please see trapdoor_as_shutter.html for a brief description of the observing scripts.

Observers who used LRIS during April 2007 should carefully examine blue side data to ensure the shutter was not stuck open during their observations.


LRIS Red channel missing columns (2007-April-13)

LRIS Troughput Measurements (2007-Mar-12)
To regularly monitor the throughput of LRIS, observers will be asked for permission to take spectrophotometric observations of a designated standard star during twilight. A script called observe_flux_ standard: verifies that the telescope is pointed to a known LRIS flux standard star by checking DCS keyword TARGNAME; checks the current grating and build appropriate exposure list; saves current LRIS configuration; checks that SKYPA is correct for this star; sets the correct pointing origin (SLITB); configures for slitless spectroscopy; acquires exposures; and restores the observer's configuration. Before running the script the observer should be set up to acquire spectroscopic measurements on the red side (blue side optional) and the OA should point to one of the standards in the target list called 0000_throughput_standards.

ADC status (2007-March-7)
For a description of the current status on the ADC please see: ADC Current Status

LRIS Blue side shutter replaced (2006-Sept-7)
The blue channel dewar is installed in LRIS following the replacement of the blue channel shutter. The shutter that was replaced failed due to ware between a pivot pin and arm used to open and close the shutter. The new shutter was tested and is operating normally.

As a result of the shutter replacement, the blue channel dewar was realigned. As a result of the realignment, the FOV is shifted slightly along rows and columns. This shift along the horizontal axis for LRIS is roughly 70 pix. The shift is benefits LRIS observers because it moves the bar closer to the center of the gap between the blue channel ccds. Observer's may notice that slits fell in the gap during May to Aug because the dewar was slightly misaligned.

The dewar is rotated 0.1-0.3 degrees such that the edges of the imaging FOV are not parallel to the horizontal and vertical array axis.

Grating station 3 is still unavailable. Observers will be limited to three grating choices until the grating station three is fixed. Thus, the fourth grating listed in an observer configuration form will not be installed as it is assumed to have the lowest priority.


LRIS Blue side shutter is stuck open (2006-Aug-29)
The LRIS blue channel shutter has failed again, and work to replace the shutter began on 28 Aug 2006. The LRIS blue channel should be available in time for the next run which starts 15 Sept. 2006. The shutter that recently failed was a rebuilt shutter. We are replacing it with a new shutter. We are replacing the shutter this week, and the blue channel dewar will be re-aligned next week.

Observer who used LRIS during 21-27 Aug. 2007 should carefully examine blue channel data to ensure the shutter was not stuck open during their observations.


Blue channel FOV is slightly misaligned (2006-Aug-18)
The dichroics used to redirect light toward the blue channel are slightly misaligned. The misalignment results in all slits being shifted roughly six arcseconds to the right as seen on the CCD mosaic. This means that some portion of a slit very near the slitmask bar will fall in the gap between the two Blue channel CCDs. If this shift significantly disrupts the primary science with your slitmasks for the run starting 21 August, you may redesign and submit a slitmask for milling.

Grating station three Fixed (2006-Aug-10)
Grating station 3 is back in action. The encoder used to help define the position of the grating tilt failed. The failure mode was that the encoder could not find home. The encoder was replaced with a spare. Observers should find that the wavelength offsets for grating station three that were measured during past runs may no longer apply. Observers may again select up to four different gratings for their run.

Grating station three failed (2006-Jul-18)
Grating station 3 is temporarily out of service. The grating station failed 18 July, and has been taken out of service. Observing teams are limitted to 3 gratings until the grating station is fixed.

Dewar Service and Focus Change (2006-Jul-18)
The LRIS dewar was removed from the instrument so that summit staff could install a new dewar window, replacing the original which was broken during the shutter repair in May. The new window appears to work as desired. Following the work, we've been adjusting the "tilt" position of the LRIS blue dewar to improve the uniformity of focus across the field of view. Currently the unformity in the blue CCD Y direction (along CCD columns) is good, but the CCD X direction (along rows) shows a gradient of about 100 microns from side to side. We judge this to be an insignificant amount of defocus. Observers should be aware that the nominal blue-side focus value has changed significantly and is now approximately -2450. This should be used as the central focus value when acquiring focus images with the focus loop script.

New Web Pages Released (2006-May-15)
There is a new look and feel to the LRIS instrument web pages. The new web pages include information on the LRIS blue channel that was previously lacking with the old pages. Procdures were updated, conflicts in the information or procedures were resolved, and the page information was re-organized. The LRIS documatation is grouped into three primary stages: Pre-Observing when you will require information for preparing proposals and materials in advance of an observing run; Observing when you will be at the telescope, and Post-Observing when you will need to process and analyze data in preparation for publishing.
The old web documenttion is obsolete and is no longer available. Please report any errors, missing information, clarification requests, and any problems with the pages to the lris instrument master.

LRIS Blue side shutter is stuck open! (2006-Apr-25)
The LRIS blue side shutter has failed and work to replace the shutter will begin on 5 May 2006. The shutter is stuck open which permits observing. Several new scripts are available to observers for use during afternoon setup and science acquisition. The trapdoor is currently being used as a shutter for the blue side. Red side data may still be acquired simultaneously. Your SA will review the scripts with you upon your arrival, but please see trapdoor_as_shutter.html for a brief description of the observing scripts.

LRIS Configuration Form Updated (2005-Nov-16)
A new version of the LRIS configuration form is available at http://www2.keck.hawaii.edu/inst/siastng/release/web/ObsConf/welcomeScreenEh.php . The new form is customized to the number of nights in your observing run, links to the slitmask database, and populates dropdown lists with facility and user masks. For LRIS, the blue side elements are listed, and a default configuration is presented. When prepairing for upcoming LRIS and DEIMOS runs, please use the new configuration forms.

IRAF script updates (2005-May-19)
A new version of lrisbias.cl is available in the keck.lris package to handle the 4-amp case (old version only worked with 1 or 2 amps). The script was tested with both red and blue images. Please report any problems with the script to the LRIS master. Chris Fassnacht is the author of the new version of lrisbias.cl.

Even Older News ...