Vera C. Rubin Observatory:

Federica Bianco

 

University of Delaware

Department of Physics and Astronomy

Biden School of Public Policy and Administration

Data  Science Institute

 

 

Rubin Legacy Survey of Space and Time

Deputy Project Scientist, Rubin Construction

Interim Head of Science, Rubin Operation

Rubin Observatory

Site: Cerro Pachon, Chile

Funding: US NSF + DOE

Status: final phases of construction - completion expected 2023

LSST Science Drivers

Probing Dark Energy and Dark Matter

An unprecedented inventory of the Solar System from threatening NEO to the distant Oort Cloud

LSST Science Drivers

LSST Science Drivers

image credit: ESA-Justyn R. Maund 

Exploring the Transients and Variable Universe

10M alerts every night shared with the world

60 seconds after observation

image credit ESO-Gaia

LSST Science Drivers

Mapping the Milky Way and Local Volume

via resolved stellar population

 

 

 

 

To accomplish this, we need:

1) a large telescope mirror to be sensitive - 8m (6.7m)

2) a large field-of-view for sky-scanning speed - 10 deg2

3) high spatial resolution, high quality images - 0.2''/pixels

4) Process images and produce catalogs of all 37B objects 

 

 

 

2M 3,200 Megapixel images in 10 years -about 60 PB of data

Objective: provide a science-ready dataset to transform the 4 key science area

federica bianco - fbianco@udel.edu

single image depth ~24

10-year stack image depth ~26

image resolution 0.2'' (seeing limited)

 

18,000 sq degrees 

839 images over 10 years in 6 filters

2-3 images per night

each fields reobserved within ~days

 

5 fields observed to higher cadence and more images

survey specification

~25.9, 26.8, 26.8, 26.3, 25.6, 24.8

~56, 74, 184, 187, 166, 171

federica bianco - fbianco@udel.edu

federica bianco - fbianco@udel.edu

@fedhere

At this level of precision,everything is variable, everything is blended, everything is moving.

SDSS

LSST-like HSC composite

*pstn-054.lsst.io v3.3 simulations

u,g,r,i,z,y
Photometric precision'
Photometric accuracy'
Astrometric precision'
Astrometric accuracy'
# visits*
mag single image*
mag single coadd*
5 mmag
10 mmag
10 mas
50 mas
51, 66, 178, 184, 160, 161
23.2, 24.44, 24.05, 23.55 22.94, 22.03
25.34, 26.79, 26.93, 26.45, 25.75, 24.81

SDSS 2x4 arcmin sq griz

MYSUC (Gawiser 2014) 1 mag shallower than LSST coadds

federica bianco - fbianco@udel.edu

At this level of precision,everything is variable, everything is blended, everything is moving.

@fedhere

u,g,r,i,z,y
Photometric precision'
Photometric accuracy'
Astrometric precision'
Astrometric accuracy'
# visits*
mag single image*
mag single coadd*
5 mmag
10 mmag
10 mas
50 mas
51, 66, 178, 184, 160, 161
23.2, 24.44, 24.05, 23.55 22.94, 22.03
25.34, 26.79, 26.93, 26.45, 25.75, 24.81

*pstn-054.lsst.io v3.3 simulations

Rubin by the numbers

~1000 images per night

10M alerts per night (5sigma changes)

17B stars 30B galaxies Ivezic+19

200 quadruply-lensed quasars Minghao+19

~50 kilonovae Setzer+19, Andreoni+19   (+ ToO)

>10 interstellar objects

~10k SuperLuminous Supernovae Villar+ 2018

~ 50k Tidal Disruption Events Brickman+ 2020

~10 million QSO Mary Loli+21

~1000 SNe every night in the LSST sky



federica bianco - fbianco@udel.edu

Cosmology in the LSST era

Use of multiple cross-checking probes that reach unprecedented precision .

 

 

Dark energy manifests itself in two ways. The first is the relationship between redshift and distance (the Hubble diagram), or equivalently the expansion rate of the universe as a function of cosmic time. The second is the rate at which matter clusters with time.

Iveziv 2019

Cosmology in the LSST era: the DARK sector

Rubin Observatory Status

@fedhere

September 2016

@fedhere

Fabruary 2020

@fedhere

May 2022

@fedhere

November 2022

@fedhere

May 2022

May 2022 - Telescope Mount Assembly

 

weight 2e5 kg, max slew rate 0.2 rad/s

Most of the weight in a 10m disk
Angular momentum

 

5,000,000 ~kg~m^2 s^{-1}

Secondary mirror coaded - to be mounte in April 2024

Comcam at the summit

3.2 Gigapixel camera 

378 4K ultra-high-definition TV

Ready to go on sky lsater this yeas!

The DOE LSST Camera - 3.2 Gigapixel

3024 science raft amplifier channels

Camera and Cryostat integration completed at SLAC in May 2022,

Shutter and filter auto-changer integrated into camera body

LSSTCam undergoing final stages of testing at SLAC to be shipped soon!

Rubin ugrizy filters

𝑢 (left) and 𝑦 band (right) magnitude corrections associated with read-noise, QE, and vignetting effects for each amplifier in the CCD plane. 

ΔCm∞

0.4

- 0.4

1.2m AuxTel:

running with LOVE since 2022

 

AuxTel runs regularly since 2022 testing of Rubin software components and observatory workflows, data aquisition for testing pipelines, calibration & data analysis and Operations training.

 

 

LOVE: LSST Operations Visualization Environment

K. Bechtol

federica bianco - fbianco@udel.edu

stay up to date with ls.st/dates

 

 

late 2024-

early 2025

mid 2025

2 years

from now

First data release 3y from now

K. Bechtol

LSST

data products

Data Products

federica bianco - fbianco@udel.edu

federica bianco - fbianco@udel.edu

world public!

Template production : initial template can use as few as 3 good seeing images

Incremental templates in Y1:

  • as the sky gets observed 3+ times templates are produced and released.
  • The area of sky with available templates+alerts increases over Y1.
  • The templates are not updated until DR1

Discovery Engine

10M alerts/night

Community Brokers

target observation managers

the astronomy discovery chain

Pitt-Google

Broker

BABAMUL

federica bianco - fbianco@udel.edu

data right holders only

federica bianco - fbianco@udel.edu

slide: Leanne Guy

 

LSST IN-KIND PROGRAM

LSSTdata rights are open to US and Chilean scientists

 

International organizations can acquire data rights via in-kind contributions

 

Data rights are awarded to PIs and their team (5 ppl per team)

 

~80 Italian PIs w 26 in-kind contributions

 

LSST IN-KIND PROGRAM

LSSTdata rights are open to US and Chilean scientists


International organizations can acquire data rights via in-kind contributions


Data rights are awarded to PIs and their team (5 ppl per team)


~80 Italian PIs w 26 in-kind contributions


  • The Son of X-Shooter contribution to Rubin: a set of 2,000 spectra for Machine Learning light curve classification (Campana)
  • Directable SW contribution for the AGN SC: Simulations of high-z AGNs and galaxies in the LSST survey (Buongiorno)
  • Non-Directable SW contribution for the TVS SC: A Bridge from Gamma to Optical (Antonelli)
  • Access to Telescope Time for the US/C for follow-up (Schipani)
  • Directable SW contribution for the Galaxies SC: Tools for the measurement of surface brightness fluctuations on LSST data (Cantiello - w Hezra)
  • AND MORE

LSST IN-KIND PROGRAM

LSSTdata rights are open to US and Chilean scientists

 

International organizations can acquire data rights via in-kind contributions

 

Data rights are awarded to PIs and their team (5 ppl per team)

LSST survey strategy optimization

Rubin LSST survey design

Milky Way

Transients & Variables

Cosmology

Solar System

Rubin LSST survey design

Milky Way

Transients & Variables

Cosmology

Solar System

Rubin LSST survey design

Rubin has involved the community to an unprecedented level in survey design this is a uniquely "democratic" process!

Survey Cadence Optimization Committee

The SCOC is advisory to the Rubin Observatory Operations Director (currently Bob Blum). It will begin its work in 2020, and will be a standing committee throughout the life of Rubin Observatory operations. 

Rubin LSST survey design

20 peer review papers accepted several more under review and in preparation https://iopscience.iop.org/journal/0067-0049/page/rubin_cadence

Simulating the Legacy Survey of Space and Time Stellar Content with TRILEGAL - P. Dal Tio+ 2022 ApJS 262 22
LSST Survey Strategies and Brown Dwarf Parallaxes - J. E. Gizis+ 2022 ApJS 263 23
Rubin LSST Observing Strategies to Maximize Volume and Uniformity Coverage of Star-forming Regions in the Galactic Plane - L. Prisinzano+ 2023 ApJS 265 39
Light-curve Recovery with the Vera Rubin Observatory’s LSST. I. Pulsating Stars in Local Group Dwarf Galaxies - M. Di Criscienzo+ 2023 ApJS 265 41
LSST Survey Strategy in the Galactic Plane and Magellanic Clouds - R. A. Street+ 2023 ApJS 267 15
An Evenly Spaced LSST Cadence for Rapidly Variable Stars - E. D. Feigelson+ 2023 ApJS 268 11

Rubin LSST survey design

(~current plan: the Wide Fast Deep 75-90% of the sky time)

Over 500 survey strategy simulations have been vetted by the community for science throughput

Observing Strategy team lead: Lynne Jones

newer simulations ->

<-bad         good ->

Survey Strategy contines to improve the majority of LSST Science Cases

Rubin LSST survey design

 

Rubin LSST survey design

v3.3 OpSims integrate new throughput curves corresponding to Agx3 mirror coating plan

(alternative to Al-Ag-Al)

Change in cumulative depth and number of visits over successive baseline simulations 

Rubin LSST survey design

v3.3 OpSims integrate new throughput curves corresponding to Agx3 mirror coating plan

(alternative to Al-Ag-Al)

http://astro-lsst-01.astro.washington.edu:8080/?runId=2

26.8

29.1

28.6

26.8

Rubin LSST survey design

(current plan: the Deep Drilling Fields)

700       N visits.     1200   

r

r

COSMOS

Euclid DF-S

Rubin LSST survey design

 

high-visit MW (6.6%)      low-visit MW (6.3%)        SCP (0.9%)           MCs (1.6%)

 

Rubin LSST survey design

(~current plan: the Wide Fast Deep 75-90% of the sky time)

Over 500 survey strategy simulations have been vetted by the community for science throughput

Observing Strategy team lead: Lynne Jones

<-bad         good ->

Proper Motion Uncertainty

newer simulations ->

newer simulations ->

2.40 mas

2.05 mas

0.1975 mas

0.1825 mas

Median PM Uncertainty @20.5

Median PM Uncertainty @24.0

Parallax Uncertainty

<-bad         good ->

newer simulations ->

newer simulations ->

10 mas

8.25 mas

2.45 mas

2.10 mas

Median Parallax Uncertainty @22.4

Median Parallax Uncertainty @24.0

Saturation limit

Note: this may change if we move from 2x15 seconds snaps to 1x30 seconds image - we will know in commissioning

13.5

15.2

 

15.15

 

13.65

g band median saturation

r band median saturation

Number of stars 

Blended and unblended

Synergies: Roman rolling field

Rubin LSST survey design

v3.3 OpSims integrate new throughput curves corresponding to Agx3 mirror coating plan

(alternative to Al-Ag-Al)

LSST has profoundly changed the TDA infrastructure

Photometric Classification of transients

highest participation of any astronomical Kaggle challenges

federica bianco - fbianco@udel.edu

@fedhere​

Rubin will see ~1000 SN every night!

Credit: Alex Gagliano University of Illinois, IAIFI fellow 2023

Deep Drilling Fields

Kaggle PLAsTiCC challenge

AVOCADO classifier

https://arxiv.org/abs/1907.04690

Deep Drilling Fields

Kaggle PLAsTiCC challenge

AVOCADO classifier

https://arxiv.org/abs/1907.04690

Wide Fast Deep

Willow Fox Fortino

UDel grad student

When they go high, we go low

Classification power vs spectral resolution for SNe subtypes

 

Neural Network

classifier architectures:

- transformers
- CNNs

Some fun stuff we are doing at FASTLab

AILE: the first AI-based platform for the detection and study of Light Echoes

YOLO3 + "attention" mechanism

precision 80% at 70% recall with a training set of 19 light echo examples! 

Xiaolong Li

LSSTC Catalyst Fellow 2023

UDelaware->John Hopkins

federica bianco - fbianco@udel.edu

Atmosphere-aided studies

dM                 energy

dDCR               color                temperature

Riley Clarke, Davenport, Gizis, Bianco, in prep

Riley Clarke

Atmosphere-aided studies

Riley Clarke, Davenport, Gizis, Bianco, in prep

Riley Clarke

Will we discover new physics?

A comparative assessment of LSST potential surveys in the discovery of unknown unknowns

Xiaolong Li

 

federica bianco - fbianco@udel.edu

Proper motion anomalies

Ragosta, Li, Clarkson, Bianco

Xiaolong Li

federica bianco - fbianco@udel.edu

Rubin Operations Research Inclusion team

federica bianco - fbianco@udel.edu

how to get involved

join a Rubin LSST Science Collaborations

8 teams

>1500 members

>2000 affiliations

5 continents

federica bianco - fbianco@udel.edu

We aspire to be an inclusive, equitable, and ultimately just group and we are working with renewed vigor in the wake of the recent event that exposed inequity and racism in our society to turning this aspiration into action.

No commitment required for basic membership

No data rights required (being a member of an SC does not confer data rights

join a Rubin LSST Science Collaborations

Will Clarkson

SC coordinator

become a DP0 delegate

Rubin Community Science Team lead: Melissa Graham 

 

federica bianco - fbianco@udel.edu

join the Community forum

 

 

Rubin Community Forum (Community.lsst.org) is available to everyone, and the posting of any and all Rubin/LSST-related questions is encouraged.

thank you!

 

University of Delaware

Department of Physics and Astronomy

 

Biden School of Public Policy and Administration

Data  Science Institute

@fedhere

federica bianco

fbianco@udel.edu

Rubin Observatory LSST 

MMA and LEOsats

Iridium satellite number 35 lit up the predawn sky west of Boston at 5 a.m. EST on February 1, 1998, as Sky & Telescope senior editor Dennis di Cicco waited with his camera, taking a 10-minute exposure on Fujichrome 100 slide film through an 80-mm f/2.8 Hasselblad lens working at f/4.

Iridium satellite number 35 lit up the predawn sky west of Boston at 5 a.m. EST on February 1, 1998,  Sky & Telescope

Satellite flares

@fedhere

federica bianco fbianco@udel.edu

Time domain Rubin LSST science

can be mitigated:

- orientation of satellite,

- directing flares away from observer

- knowing coordinates to associate them to alerts

 

if not mitigate there would be bogus alerts and images ruined by saturating flares

 

Science Collaborations

 

Hainaut & Williams 2020

https://arxiv.org/abs/2003.01992