wiki:docs/CommissioningPlan

Version 214 (modified by kradhakrishnan, 3 years ago) (diff)

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SHARK-NIR Commissioning Plan (SHARK-NIR-INAFP-COM-001 Issue 0.2)

Issue Change Record

Issue No. Date Section Affected Reasons / Remarks Initials
0.1 02-Feb-2021 All New document KRA
0.2 24-Apr-2021 All updates in Phase 3 and 4, change in duration KRA
0.3 14-Jan-2022 All Minor corrections and additions KRA

Applicable Documents

No. Title Number & Issue
AD1 SHARK-NIR Schedule SHARK-NIR-INAFP-SCH-001 Issue 1.3
AD2 SHARK-NIR SHINS Interface Control Document SHARK-NIR-INAFP-ICD-002 Issue 0.4
AD3 SHARK-NIR Installation Plan SHARK-NIR-INAFP-MAN-001 Issue 2.0
AD4 SHARK-NIR Calibration Procedures SHARK-NIR-INAFP-MAN-004 Issue 0.2
AD5 SHARK-NIR System Design Analysis SHARK-NIR-INAFP-SDA-001 Issue 1.0
AD6 SHARK-NIR Cryostat Procedures SHARK-NIR-SO-MAN-001 Issue 0.4 draft
AD7 SHARK-NIR Science Cases SHARK-NIR-INAFP-SCI-001 Issue 0.1
AD8 SHARK-NIR Integration & Commissioning Schedule SHARK-NIR-INAFP-SCH-002 Issue 1.0 (not released yet)
AD9 Observing Blocks Template Manual SHARK-NIR-INAFP-MAN-002 Issue 0.1 (not released yet)

Introduction

This commissioning planning document lays out and details the activities needed to bring SHARK-NIR online for single-eye shared-risk scientific exploitation (the binocular observations with SHARK-VIS or trinocular with SHARK-VIS & LBTI are out of the scope of this commissioning plan). The document incorporates activities starting from the unpacking of the boxes at the LBT mountain bay to the early science (or science verification) at its final destination on the LBT platform. Although called the commissioning document, it lists the pre-commissioning, commissioning, and science verification activities. The activities are classified into four phases. Phase 1 and 2 are purely daytime activities. Phase 3 and 4 are nighttime activities (with little daytime activity anticipated). It is to be noted that Phase 3 activities are classified into observing cases (OC#, see the table below) and not according to the observing modes (direct imaging, coronagraphic imaging, long-slit spectroscopy) anymore. This allows commencing Phase 4 (science verification) of those observing cases immediately after the completion of the respective Phase 3 commissioning run. See below for more details.

Phase 1: We start by inspecting the boxes at LBT mountain bay, unpacking, and installing the instrument at the mountain lab (clean room) for alignment verification and functionality checks. All of these are daytime activities. This forms the content of the PSR-09 Preliminary Laboratory Integration & Test (I&T) Procedure (at LBT). [Pre-commissioning: Unpack, assemble, and clean-room verification]

Phase 2: The activities start from the installation of SHARK-NIR at the SX central bent Gregorian focus of LBT, followed by preliminary functional checks, aligning SHARK-NIR to the telescope (daytime), and daytime closed dome engineering/technical testing. All of these are daytime activities. [Pre-commissioning: Installation, functional checks, and closed-dome testing]

Phase 3: Phase 3 commences the nighttime commissioning, starting from sending preset to the telescope to testing individual SHARK-NIR observation modes for performance to the total SHARK-NIR performance. The final form of the SHARK-NIR software, observing blocks, data-reduction pipeline, etc., will be tested for all the observing cases of the instrument. All the activities are nighttime. However, some daytime activities may be anticipated as well. There will be a common run (Run 1) to test the basic common requirements for each of the observing cases. Run 2-5 blocks represent the nighttime technical commissioning of a set of 17 observing cases. After the completion of each of these runs, SHARK-NIR will be ready for Phase 4 (science verification) of the respective observing cases. [Commissioning]

Phase 4: SHARK-NIR is ready for the final phase of the commissioning - the early science (or science verification) observations. The final performance of the SHARK-NIR will be analyzed using the data from this run. All the activities are nighttime. By the end of this phase, SHARK-NIR is ready for single-eye shared-risk scientific exploitation. [Early Science or Science Verification]

Observing Cases

Three observering modes of SHARK-NIR, namely direct imaging, coronagraphic imaging, long-slit spectroscopy, are classified into observing cases for the purpose of the commissioning. The observing cases are all the combinations of individual science observing possibilities using various coronagraphs and modes. We have 17 of them tabulated below.

# Observing Case
OC1 Direct imaging - pupil stabilized
OC2 DBI - Direct imaging - pupil stabilized
OC3 Direct imaging - field stabilized
OC4 DBI - Direct imaging - field stabilized
OC5 Coronagraphic imaging - GL - field stabilized
OC6 Coronagraphic imaging - GL - pupil stabilized
OC7 Coronagraphic imaging - FQPM - pupil stabilized
OC8 Coronagraphic imaging - SP1 - pupil stabilized
OC9 DBI - Coronagraphic imaging - SP1 - pupil stabilized
OC10 Coronagraphic imaging - SP2 - pupil stabilized
OC11 DBI - Coronagraphic imaging - SP2 - pupil stabilized
OC12 Coronagraphic imaging - SP3 - pupil stabilized
OC13 DBI - Coronagraphic imaging - SP3 - pupil stabilized
OC14 LSS (R~100) close companion
OC15 LSS (R~800) distant companion
OC16 LSS (R~100) distant companion
OC17 LSS (R~800) close companion

Note that technically and software-wise, there are no differences between (OC14 & OC16) and (OC15 & OC17), and therefore only OC14 and OC15 will be tested for Phase 3 nighttime commissioning.

In the table above, the acronyms mean the following:

DBI - Dual Band Imaging.
GL - Gaussian Lyot.
FQPM - Four Quadrant Phase Mask.
SP(1,2,3) - Shaped Pupil (symmetric, X, Y).
LSS - Long Slit Spectroscopy.

Category

The table below lists the categories of commissioning activities.

Category NameCategory Number
Unpack, Assemble, and VerificationC1
Installation of SHARK-NIR at LBT platform C2
Daytime testing (functionality and operability)C3
Daytime calibrationC4
Nighttime testing (functionality and operability)C5
Nighttime calibrationC6
Nighttime testing for performanceC7
Early science or Science verificationC8

Naming structure of the commissioning activity

Each commissioning test/activity has a unified structure as follows:

Name of the commissioning activity
  - phase: states the phase of the commissioning (1/2/3/4)
  - status: reports the current status of the test description (draft, final, complete)
  - category: one of the categories mentioned above
  - recurrence: describes how frequently the test must be executed
  - duration: estimates the time required to complete the test (the duration mentioned here is valid only for commissioning)

Description
  - Contains a general description of the test

Prerequisites
  - Lists items that must be in place before the test begins

Procedure
  - Explains in detail how to execute the test

Templates
 - Mentions the templates to be used. If there are specific parameters to be, they are mentioned in brackets.

Success Criteria
  - Enumerates the outcome associated with successful completion of the test

Notes
  - Additional supporting information

LBTO Support
  - Mention if (and what) support is required from LBTO

Associated SHARK-NIR personnel
  - Mentions here who are the associated personnel to the test

Date performed and by whom
  - Mentions who performed the test and when

Commissioning Activity

In this section, all the commissioning activities are listed in chronological order. If you click on the individual activity, you can find more details. 8 hours is considered as the duration of a day or night. It is to be noted that the phases do not correspond to the commissioning runs. The various commissioning runs with the list of activities to be performed (derived from this document) will be decided at a later point in time. Of course, depending on the month of the year, we will modify the actual number of days required for that specific commissioning run. From commissioning experience at the LBT, for the daytime activities at the telescope platform, the telescope may be handed over around 09:00 am local time. And, the SHARK-NIR team needs to hand over the telescope to LBT ~2 hours before the sunset (unless we have the first half of the night or full night and to be negotiated with the telescope operator). Note that the duration of the individual activities mentioned in this document will not match that of AD4 for the same activities.

Phase 1 (Pre-commissioning)

SHARK-NIR Location: LBT mountain bay and clean room. Some of the activities may run in parallel. All the activities are daytime. In the cleanroom, usually, there are no restrictions on daytime or nighttime activity.

NumberActivity NameDay / NightDuration (days)CategoryLBTO Support
P1.1Inspection of the closed boxesDay0.5C1Crane operator (mountain bay) to lift and move stuff. 1-2 crew to support moving containers/boxes.
P1.2Opening of boxes in LBT Hall, inspection of the content and installation on units on their handlingsDay1C1Crane operator (mountain bay) to lift and move stuff. 1-2 crew to support unpacking and moving.
P1.3Installation of SHARK-NIR HW and electronics in clean roomDay1.5C1Crane operator to lift and move stuff (mountain bay and/or cleanroom). 1-2 crew to support installation procedure (mountain bay and/or cleanroom). Access to the LBTO electronics cabinet where the motor rack of SHARK-NIR will be installed. Optical bench and access to the clean tent.
P1.4Cable in the instrument, power on, install workstations, and connect to LBT networkDay1C1IT support to install/set the workstations in the proper location, connect to the LBT network. LBTO SW support may be needed.
P1.5SW checks and motors initializationsDay1C1-
P1.6Cryostat cool downDay1C1Liquid N2 refill is required in the cleanroom. Vacuum pump and support for cooling down the cryostat.
P1.7Motor/light sources functional verification and filter artifacts/defects verificationDay1.5C1Liquid N2 refill is required in the cleanroom.
P1.8Internal alignment verificationDay4C1Liquid N2 refill is required in the cleanroom.
P1.9Internal tip-tilt loop verificationDay1C1Liquid N2 refill is required in the cleanroom.
P1.10NCPA routine verificationDay0.5C1Liquid N2 refill is required in the cleanroom.
P1.11Science detector calibrationsDay1C1 + C4Liquid N2 refill is required in the cleanroom.
P1.12Testing of SCICAM image grabbing by SOUL-AODay2C1Liquid N2 refill is required in the cleanroom. LBTO SW support may be required.
Total(2 days of) contingency (10%) included within 16

Phase 2 (Pre-commissioning)

SHARK-NIR Location: LBT platform. Some of the activities may run in parallel. All daytime activities.

NumberActivity NameDay / NightDuration (days)CategoryLBTO Support
P2.0AInstallation of SHARK-NIR on LBT platformDay2(preparation) + 2(lift-off) + 1(contingency)C2Crew members' support for the preparation, lift-off, and installation of SHARK-NIR. Crane operator (cleanroom, mountain bay, LBT platform). Safety officer. Working platform installed in front of the Gregorian focal-station SX. Hatch door SX on the UIAP platform removed. Support for the installation of electronics in the LBTO cabinet. Kindly check the installation document, AD3, for more details.
P2.0BInstallation of SHARK-NIR electronics on LBT platformDay2C21-2 crew members' support for the preparation and installation of SHARK-NIR electronics. Safety officer. Kindly check the installation document, AD3, for more details.
P2.1Basic functionality and shutdown procedure test, cryostat cooldownDay1C3Testing the working of the knob (motor/manual) controlling the cooldown. Liquid Nitrogen fill. Vacuum pump.
P2.2Instrument operability and functioningDay2C3-
P2.3TCS communication testDay2C3Authorize SHARK-NIR. Permission to SX ASM and LBTI AO. Permission to send preset, receiving LBT telemetry (inc. the derotator trajectory) and details for the Fitswriter. Support from the LBT SW team.
P2.4SHARK-NIR alignment to the telescopeDay3C3Working platform installed in front of the Gregorian focal-station SX, Argos swing arm and calibration source on SX side. Support from the LBTI team.
P2.5SOUL AO system testDay5C3 + C4Authorize SHARK-NIR on SX side. Permission to use the Argos Swing Arm. If not the Argos swing arm, RR will be required on the SX side. AO support.
P2.6NCPA measurementsDay8C3 + C4Authorize SHARK-NIR on SX side. Permission to use the Argos Swing Arm. When not using the Argos swing arm and for different elevation angle tests, RR will be required on the SX side. AO support.
P2.65 / P3.12 / E1Star center Fourier mode imagesDay2C3Authorize SHARK-NIR on SX side. Permission to use the Argos Swing Arm. When not using the Argos swing arm and for different elevation angle tests, RR will be required on the SX side. AO support.
P2.7Checking pointing offset between SHARK-NIR and SOUL-AODay1C3 + C4Authorize SHARK-NIR on the SX side. RR mounted on the SX side. AO support.
P2.8Science detector calibrations (on the telescope)Day1C3 + C4-
P2.9Cryostat warm up checkDay2C3-
Total(4 days of) contingency (15%) included within 34 days

Phase 3 (Commissioning)

SHARK-NIR Location: LBT platform. All nighttime activities. Some daytime support (within SHARK-NIR) is anticipated. Also, the SHARK-NIR software, SHINS, is expected to be almost ready to be tested.

Phase 3 is further divided into 5 runs. Run 1 consists of essential common activities essential for every observing case. This will be the first to be tested on-sky. Run 2-5 blocks represent the nighttime technical commissioning of a set of 17 observing cases. For each of the observing cases, only one target will be tested. The contrast obtained from the data will be used as the merit function or success criterion. If contrast is not an option, a similar (or another) merit function will be used. After the completion of each of these runs, SHARK-NIR will be ready for Phase 4 (science verification) of the respective observing cases.

It is important to note that Run 2-5 are interchangeable. It is currently sorted to have the software complexity in the increasing order and also considering the science interest. Note that "Run N" does not mean that it is the Nth visit to the observatory. For example, Run 1 can be completed in 1 or 2 visits to the observatory, depending on the allotted time. Note also that, for individual runs (2-5), the time taken for other basic activities (such as moving from one target to another, setting up the telescope, closing the AO loop, etc.) are not explicitly mentioned in the table. For example, we anticipate, it may take between 10-20 minutes to move and set the telescope and close the AO loop from one target to another (numbers from the LUCI overheads table). This extra duration required will be mostly covered within the 20% contingency and/or the rounding up of the total nights.

Every evening of the nighttime commissioning, all the required calibrations (including dark, bias, flat-field, etc. for all the filters required) will be taken using the SHARK-NIR calibration unit.

Seeing conditions definition:

  • good : <0.8"
  • medium: 0.8"-1.2"
  • bad: >1.2" - observable

Run 1

#Activity Name / Observing CaseDay / NightDuration (hours)Seeing ConditionsCategoryLBTO Support
P3.0 / NC1Large spatial scale instrument and telescope flat fieldTwilight2TwilightC5 + C6-
P3.1 / NC2Telescope control – sending presetNight2badC5-
P3.2 / NC3Telescope control – telescope mode, offset, and focal plane geometry estimationNight2medium / badC5-
P3.3 / NC4SOUL-AO verificationNight12good / mediumC5 + C7AO support
P3.4 / NC5Pupil alignment (for checking the pupil positon, and working of the script)Night2badC5 + C6AO support
P3.6 / NC6PSF AlignmentNight3good / mediumC5 + C6AO support
P3.7 / NC7Verify the ADC rotation on skyNight4medium / badC5AO support
P3.8 / NC8Checking field-stabilized mode/bearing rotation serviceNight2badC5AO support
P3.9 / NC9Internal TT loop working and performance (in different magnitude and seeing conditions)Night8good / mediumC5 + C7AO support
P3.10 / NC10NCPA working and performance & checking for pupil shiftsNight12medium (up to 1")C5 + C7AO support
P3.11 / NC11Check the acquisition procedureNight2mediumC5AO support
P3.14 / NC12Sky backgroundNight2badC5 + C6-
P3.15 / NC13Astrometry plate scale and orientationNight2good / mediumC5 + C6AO support
P3.19 / NC14Distortion mapNight2good / mediumC5 + C6AO support
Total duration with 20% contingency 8.55 nights
Total duration rounded up 9 nights

Run 2

#Activity Name / Observing CaseDay / NightDuration (hours)Seeing ConditionsCategoryLBTO Support
OC1Direct imaging - pupil stabilizedNight2.25medium / badC5 + C7AO support
OC2DBI - Direct imaging - pupil stabilizedNight2.25medium / badC5 + C7AO support
OC3Direct imaging - field stabilizedNight2.25medium / badC5 + C7AO support
OC4DBI - Direct imaging - field stabilizedNight2.25medium / badC5 + C7AO support
Total duration with 20% contingency 1.35 nights
Total duration rounded up 2 nights

Phase 4 science verification of the observing cases (1-4) can start after Run 2.

Run 3

#Activity Name / Observing CaseDay / NightDuration (hours)Seeing ConditionsCategoryLBTO Support
TestTest / Correction following previous Run #Night4badC5
P3.4 / NC5Pupil alignment (for GL and FQPM)Night1badC5 + C6AO support
P3.6 / NC6PSF Alignment (for GL and FQPM)Night2good / mediumC5 + C6AO support
P3.12 / NE1Star center Fourier mode imagesNight8good / mediumC5 + C6AO support
P3.16 / NE2Flux calibration (off-centered target observation) (for GL and FQPM)Night2good / mediumC5 + C6AO support
P3.17 / NE3Instrumental throughput and absolute flux calibration (for a set of filters)Night2badC5 + C6AO support
OC5Coronagraphic imaging - GL - field stabilizedNight3good / mediumC5 + C7AO support
OC6Coronagraphic imaging - GL - pupil stabilizedNight3good / mediumC5 + C7AO support
OC7Coronagraphic imaging - FQPM - pupil stabilizedNight3good / mediumC5 + C7AO support
Total duration with 20% contingency 4.2 nights
Total duration rounded up 5 nights

Phase 4 science verification of the observing cases (5-6) can start after Run 3

Run 4

#Activity Name / Observing CaseDay / NightDuration (hours)Seeing ConditionsCategoryLBTO Support
TestTest / Correction following previous Run #Night4badC5
P3.4 / NC5Pupil alignment (for SP-1, SP-2, SP-3)Night1badC5 + C6AO support
P3.6 / NC6PSF Alignment (for SP-1, SP-2, SP-3)Night2good / mediumC5 + C6AO support
P3.5 / NE4Orient the coronagraphs (orient apodizers)Night1badC5 + C6AO support
P3.16 / NE2Flux calibration (off-centered target observation) (for SP-1, SP-2, SP-3)Night2good / mediumC5 + C6AO support
OC8Coronagraphic imaging - SP1 - pupil stabilizedNight3good / mediumC5 + C7AO support
OC9DBI - Coronagraphic imaging - SP1 - pupil stabilizedNight3good / mediumC5 + C7AO support
OC10Coronagraphic imaging - SP2 - pupil stabilizedNight3good / mediumC5 + C7AO support
OC11DBI - Coronagraphic imaging - SP2 - pupil stabilizedNight3good / mediumC5 + C7AO support
OC12Coronagraphic imaging - SP3 - pupil stabilizedNight3good / mediumC5 + C7AO support
OC13DBI - Coronagraphic imaging - SP3 - pupil stabilizedNight3good / mediumC5 + C7AO support
Total duration with 20% contingency 4.2 nights
Total duration rounded up 5 nights

Phase 4 science verification of the observing cases (8-13) can start after Run 4

Run 5

#Activity Name / Observing CaseDay / NightDuration (hours)Seeing ConditionsCategoryLBTO Support
TestTest / Correction following previous Run #Night3badC5
P3.6 / NC6PSF Alignment (for SLIT-1 and SLIT-2)Night2good / mediumC5 + C6AO support
P3.13 / NE5Center the slitNight8medium / badC5AO support
P3.18 / NE6Atmospheric calibration and absolute flux calibrationNight2good / mediumC5 + C6AO support
OC14LSS (R~100) companion (0.175"<distance<0.35")Night2.5good / mediumC5 + C7AO support
OC15LSS (R~800) companion (distance > 0.35")Night2.5good / mediumC5 + C7AO support
Total duration with 20% contingency 3 nights
Total duration rounded up 3 nights

Phase 4 science verification of the observing cases (14-17) can start after Run 5

  • Net Phase 3 Nights Requested = 24
  • When Phase 4 science verification completes, SHARK-NIR can be offered to the community under shared-risk!!!

Phase 4 (Science Verification / Early Science)

SHARK-NIR Location : LBT platform. All nighttime activities. Very little daytime support (within SHARK-NIR) is expected. SHINS is expected to be ready to be used without any changes required.

Every evening of the nighttime commissioning, all the required calibrations (including dark, bias, flat-field, etc. for all the filters required) will be taken using the SHARK-NIR calibration unit.

NumberActivity NameDay / NightDuration (nights)CategoryLBTO Support
P4.1Exo-planet: Giant planets and brown dwarfs in SFR, stellar associations, & young open clustersNight8C8AO support
P4.2Exo-planet: AstrometryNight1C8AO support
P4.3Exo-planet: Spectroscopic Characterization of known sub-stellar companionsNight3C8AO support
P4.4Disk: High-contrast images of circumstellar disksNight3C8AO support
P4.5Disk: Coronagraphic imaging of stellar jetsNight0.5C8AO support
P4.6Disk: Jets investigated with long-slit spectraNight0.5C8AO support
P4.7Extragalactic: QSO & AGNsNight3C8AO support
P4.8Solar system: Size and shape of main-belt astroidsNight0.5C8AO support
P4.9Solar system: Surface heterogeneity of trans-neptunian objectsNight0.5C8AO support
TotalContingency of 1 nights (5%) 20+1 = 21
Total duration rounded up 21 nights