Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.
Excerpt Include
MenuBars
MenuBars
nopaneltrue

Livesearch
spaceKeyLDTOI
placeholderSearch LDT Observer Information

Lowell Discovery Telescope

(formerly the Discovery Channel Telescope)

Observer Information Pages

Warning
titleCOVID-19 Note:

Continuing in 2023B and 24A2024A, limited in-person observing will be supported at LDT.  For those observing remotely, see LDT Remote Observing Notes.

Current Semester Observer and Telescope Operator Calendar

Float
sideright

Image: J. Fernandez (Lowell)

Brief Overview:

The 4.3-m Lowell Discovery Telescope (LDT) is Lowell Observatory's flagship facility at a dark-sky site approximately 40 miles southeast of Flagstaff on the Coconino National Forest.

Lowell Observatory operates the LDT in partnership with Boston University, University of Maryland, Northern Arizona University, University of Toledo, and Yale University.  The telescope is scheduled by semester, with the current being 2023B.

The current call for observing proposals is linked in the sidebar at left for Lowell Observatory and Partner Institution members.

Facility Instruments:

LMI (Optical Imager)

DeVeny (Low- to Medium-Resolution Optical Spectrograph)

NIHTS (Near-infrared Low-Resolution Spectrograph)

Visitor / PI Instruments:

EXPRES (High-Resolution Optical Spectrograph)

QWSSI (Optical Speckle Imager)

RIMAS (Near-infrared Spectrograph / Imager – Under Development)

Instrumentation Main Page

List of LDT Scientific and Technical Publications

Background Color
color#DBDCDC

Updates (and Old Updates)

UPDATE: The 2024A LDT Schedule has been released.  (2023Dec08)

UPDATE:Check with staff about the upcoming PypeIt Workshop on December 15. (2023Nov20)

UPDATE: The change over to the new confluence server https://confluence.lowell.edu has happened.  Please let us know if you run across problems with these pages. (2022Mar07)

UPDATE: DeVeny Image Quality Issue: See the DeVeny Instrument Page for more information.  (2021Nov15)

UPDATE: The new VPN platform is now required for connection to the Lowell network.  All remote observers MUST update their VPN settings: Watchguard SSLVPN Installation.  (2021Sep06)


Expand
titleUPDATE: The LMI User Manual updated.  (2023Sep27)

The LMI User Manual has been updated.

Expand
titleUPDATE: The DeVeny Spectrograph User Manual has been updated.   (2023Nov16)

The new version (v1.8 – 16 November 2023) updates to the PypeIt instructions and introduces the LDT Observer Tools python package.  It is available on the LDT Observer Information Confluence page.

Expand
titleUPDATE: NIHTS User Manual updated. (2021Apr26)

An updated version of the NIHTS User Manual (v1.7) has been released and is available on the LDT confluence pages.  Per the authors, NIHTS User Manual v1.7 includes a couple of revised figures from the NIHTS Commissioning paper. 

Expand
titleUPDATE: LDT Observer Information Pages released. (2021Mar22)

The new LDT Observer Information Pages were released, replacing the prior DCT Observer Information Pages.

Expand
titleUPDATE: LMI shutter delay. (2018Dec05)

We have looked into quantifying the delay between when a user requests an image with LMI, and when the shutter actually opens. Details can be found in the write up under the LMI link about the shutter delay. The bottom line is that:

  1. The exposure times are as recorded to within a few hundredths of a second, based on the star streaks.

  2. The shutter throw time in each direction is between roughly 0.1 and 0.2 seconds, meaning that there is also a temporal gradient across all the images.

  3. Formal uncertainty on the measured time offsets are an underestimate of the true variation. The shutter throw time alone means the mid-time varies across the frame systematically by at least 0.1second (added as the systematic uncertainty below).

  4. The shutter opens 2.05 +/- 0.06 (ran) +/- 0.1 (sys) seconds later than the UTCSTART in the image header.

  5. The shutter closes 0.19 +/- 0.06 (ran) +/- 0.1 (sys) seconds earlier than the UTCEND in the image header.

Exposure times should be computed as:

  1. Start time = UTCSTART + 2.05sec

  2. End time = UTCEND - 0.19sec

  3. Mid-time = UTCSTART + 2.05 + EXPTIME/2 or

  4. Mid-time = [(UTCSTART + 2.05) + (UTCEND-0.19)] / 2