Halo Tidal Star Streams with DECAM. Brian Yanny Fermilab. DECam Community Workshop NOAO Tucson Aug

Similar documents
Exploring the Structure of the Milky Way with WFIRST

THE QUEST RR LYRAE SURVEY AND HALO SUB-STRUCTURE

Milky Way S&G Ch 2. Milky Way in near 1 IR H-W Rixhttp://online.kitp.ucsb.edu/online/galarcheo-c15/rix/

arxiv: v1 [astro-ph.ga] 17 Jun 2009

JINA Observations, Now and in the Near Future

Stellar Streams and Their Importance to Galaxy Formation and Evolution

Introduction to SDSS -instruments, survey strategy, etc

Stellar Stream map of the Milky Way Halo : Application of STREAMFINDER onto ESA/Gaia DR2

A disk origin for inner stellar halo structures around the Milky Way

(Present and) Future Surveys for Metal-Poor Stars

New insights into the Sagittarius stream

Mapping the Galactic halo with main-sequence and RR Lyrae stars

Radial Velocity Surveys. Matthias Steinmetz (AIP)

THE OVERDENSITY IN VIRGO, SAGITTARIUS DEBRIS, AND THE ASYMMETRIC SPHEROID

The tidal stirring model and its application to the Sagittarius dwarf

The Geometry of Sagittarius Stream from PS1 3π RR Lyrae

View of the Galaxy from within. Lecture 12: Galaxies. Comparison to an external disk galaxy. Where do we lie in our Galaxy?

The Milky Way Galaxy (ch. 23)

WORKSHOP PROGRAM. June 27-29, 2018 Chicago, IL. Near-Field Cosmology with the Dark Energy Survey's DR1 and Beyond KICP Workshop, 2018

Spatial distribution of stars in the Milky Way

Three Major Components

The Milky Way, Hubble Law, the expansion of the Universe and Dark Matter Chapter 14 and 15 The Milky Way Galaxy and the two Magellanic Clouds.

Using ground based data as a precursor for Gaia-based proper motions of satellites

Fermilab FERMILAB-Conf-00/339-A January 2001

Outline. c.f. Zhao et al. 2006, ChJA&A, 6, 265. Stellar Abundance and Galactic Chemical Evolution through LAMOST Spectroscopic Survey

The halo is specially interesting because gravitational potential becomes dominated by the dark matter halo

The cosmic distance scale

Galaxies: The Nature of Galaxies

ASTRON 449: Stellar (Galactic) Dynamics. Fall 2014

The Milky Way. Overview: Number of Stars Mass Shape Size Age Sun s location. First ideas about MW structure. Wide-angle photo of the Milky Way

Science Results Enabled by SDSS Astrometric Observations

arxiv: v1 [astro-ph] 22 Jun 2007

THE MILKY WAY HALO. Wyn Evans Institute of Astronomy, Cambridge. Garching, 23 February 2015

Milky Way s Anisotropy Profile with LAMOST/SDSS and Gaia

Star systems like our Milky Way. Galaxies

Number of Stars: 100 billion (10 11 ) Mass : 5 x Solar masses. Size of Disk: 100,000 Light Years (30 kpc)

Gaia-LSST Synergy. A. Vallenari. INAF, Padova

The Milky Way & Galaxies

Phys/Astro 689: Lecture 11. Tidal Debris

ASTR 1120 General Astronomy: Stars & Galaxies

Chapter 14 The Milky Way Galaxy

Surface Brightness of Spiral Galaxies

Tidal streams as gravitational experiments!

Gaia Revue des Exigences préliminaires 1

ASTR 1120 General Astronomy: Stars & Galaxies

Astr 5465 Feb. 5, 2018 Kinematics of Nearby Stars

arxiv:astro-ph/ v1 31 May 2006

ASTR 200 : Lecture 22 Structure of our Galaxy

The Sloan Digital Sky Survey. Sebastian Jester Experimental Astrophysics Group Fermilab

Overview of Dynamical Modeling. Glenn van de Ven

The Milky Way. Mass of the Galaxy, Part 2. Mass of the Galaxy, Part 1. Phys1403 Stars and Galaxies Instructor: Dr. Goderya

Astronomy 113. Dr. Joseph E. Pesce, Ph.D. Distances & the Milky Way. The Curtis View. Our Galaxy. The Shapley View 3/27/18

Astronomy 113. Dr. Joseph E. Pesce, Ph.D. Dr. Joseph E. Pesce, Ph.D.

Lecture 29. Our Galaxy: "Milky Way"

Knut Olsen DECam Community Workshop August 2011

UMa II and the Orphan Stream

Normal Galaxies (Ch. 24) + Galaxies and Dark Matter (Ch. 25) Symbolically: E0.E7.. S0..Sa..Sb..Sc..Sd..Irr

SkyMapper and the Southern Sky Survey

SkyMapper and the Southern Sky Survey

Galaxy classification

Milky Way Satellite Galaxies with DES

Astronomy Stars, Galaxies and Cosmology Exam 3. Please PRINT full name

AstroTalk: Behind the news headlines of January 2018

Probing GCs in the GC region with GLAO

Lecture 7: the Local Group and nearby clusters

Tour of Galaxies. Sgr A* VLT in IR + adaptive optics. orbits. ASTR 1040 Accel Astro: Stars & Galaxies VLT IR+AO

Milky Way Companions. Dave Nero. February 3, UT Astronomy Bag Lunch

Modelling the Milky Way bar

Galaxies. Lecture Topics. Lecture 23. Discovering Galaxies. Galaxy properties. Local Group. History Cepheid variable stars. Classifying galaxies

Page # Astronomical Distances. Lecture 2. Astronomical Distances. Cosmic Distance Ladder. Distance Methods. Size of Earth

An Introduction to Galaxies and Cosmology. Jun 29, 2005 Chap.2.1~2.3

Techniques for measuring astronomical distances generally come in two variates, absolute and relative.

Hubble s Law. Tully-Fisher relation. The redshift. λ λ0. Are there other ways to estimate distances? Yes.

Clicker Question: Clicker Question: Clicker Question: Clicker Question: What is the remnant left over from a Type Ia (carbon detonation) supernova:

Gravitational Lensing. A Brief History, Theory, and Applications

The kinematics of the extreme outer halo of. M87 as revealed by Planetary Nebulae. A.Longobardi M.Arnaboldi O.Gerhard. Garching 2015, 26th Feb.

Milky Way s Mass and Stellar Halo Velocity Dispersion Profiles

Determination of [α/fe] and its Application to SEGUE F/G Stars. Young Sun Lee

The Yale/ODI Survey(s)

LSST Science. Željko Ivezić, LSST Project Scientist University of Washington

University of Naples Federico II, Academic Year Istituzioni di Astrofisica, read by prof. Massimo Capaccioli. Lecture 16

The Accretion History of the Milky Way

The Targeted Fields: Deep Exposures (TFDE) are only used for Key Project #5: the proper motions of the Local Group Galaxies.

Lecture Three: Observed Properties of Galaxies, contd.! Hubble Sequence. Environment! Globular Clusters in Milky Way. kpc

The Milky Way. Finding the Center. Milky Way Composite Photo. Finding the Center. Milky Way : A band of and a. Milky Way

for Astrometry in the 21st Century William van Altena

Chapter 25 (and end of 24): Lecture Notes

Normal Galaxies ASTR 2120 Sarazin

arxiv: v1 [astro-ph.ga] 18 Jun 2012

Laboratory: Milky Way

SMASHing the LMC. Yumi Choi. Montana State University/University of Arizona. Collaborator

Lecture 16 The Measuring the Stars 3/26/2018

Galaxies & Introduction to Cosmology

The Milky Way - Chapter 23

The HERMES project. Reconstructing Galaxy Formation. Ken Freeman RSAA, ANU. The metallicity distribution in the Milky Way discs Bologna May 2012

The Structural Properties of Milky Way Dwarf Galaxies. Ricardo Muñoz (Universidad de Chile) Collaborators:

Astro2010 Science White Paper: The Galactic Neighborhood (GAN)

1924: Hubble classification scheme 1925: Hubble measures Cepheids (Period-Luminosity) in Andromeda case closed

The Milky Way Galaxy

The Dark Energy Survey Public Data Release 1

Transcription:

Halo Tidal Star Streams with DECAM Brian Yanny Fermilab DECam Community Workshop NOAO Tucson Aug 19 2011

M31 (Andromeda) Our Local Group neighbors: Spiral galaxies similar to The Milky Way 150 kpc M33 (Triangulum) Soft Stretch...

Richardson et al. 2011 Deep CFHT Exposures: Note the faint tidal Streams Some Over 100 kpc In length hard stretch 150 kpc

Martinez-Delgado et al. 2010 has now found tidal streams around A large number of spiral galaxies. If we look in our own neighborhood we also see these streams. The halo of the Milky Way is a special place to view these streams, since kinematic information is also possible. (radial velocities and proper motions

Ultimate science goals of a deep halo stream search: (The full program will require kinematic information beyond DES [LSST, Gaia, spectroscopic followup]) Map the gravitational potential of the outer galaxy and halo: Shape (flattened, triaxial, spherical, lumps?) Extent (total mass of Galaxy + Dark Matter to r ~ 100 kpc) Profile ( falls off as r^-2 or r^?, radius dependent?)

Via Lactea DARK MATTER halo lump Simulation 80 kpc

We observe the stars, which orbit within the overall Gravitational Potential Optical window on underlying Dark Matter 'reality' (?) 80 kpc LMC SMC

DES will go out to d > 100 kpc K giant using turnoff, BHB and K/M giant d = 100 kpc 'standard candle' tracers (all stars of the same color/temperaturebhb/a d = 35 kpc have roughly the same absolute brightness). Thus Streams and outer halo stars apparent brightness F turnoff translates to distance. d = 15 kpc thin, thick disk stars G d = 6 kpc K dwarf Inner and outer halo stars d < 1 kpc r = 1.5kpc Basic Method 8 kpc

Two difficulties: 1. Star-Galaxy separation breaks down at faint magnitudes (r ~22.5) 2. No u-band filter (initially), reduces ability to break stellar-type degeneracies: A. BHBs vs. Blue Straggler/A main seq. B. F turnoff vs. QSO C. M-dwarf vs. M-giant [Opportunity to study red color cuts for spectral type separation]

Multi-color selection can help split star/gals Galaxies Stars (with Stream) (SDSS data, DES is 1-2 mag fainter) g 23.5 g-r But high S/N features can be Detected below this limit... g~22.5 rough limit of practical star/gal sep.

Stars (with Stream) M Giant (u-g > 3 selected) g M Dwarfs (high proper motion) BHB Blue Straggler F turnoff g-r High S/N Main Sequence at g >22.5

Two qualities that will improve stream-finding: 1. Large area, faint, uniform star density maps (matched filter techniques of Rockosi et al 2002, Odenkirchen et al 2001, Grillmair 2006) help isolate stellar streams as long, narrow objects against background. 2. Proper motions will be available A. against UCAC catalog to r~20 (3 mas/yr) B. internally after 5-years (~10 mas/yr) Can help distinguish dwarfs/giants, qsos/foreground, halo vs. disk members.

F stars, app. Mag ~ 22 Star Stream! D=30 kpc from Sun Another crossing stream.

8000 Sq Deg SDSS Stellar Density map Pal 5 Globular with tidal tail (Sgr stream) Orphan Stream DES will cover South Virgo Overdensity F turnoff probing 20-30 kpc. g~21

We geometrically distort the sky so that the stars in the stream lie along a straight line (easier to pick them out then). Change the magnitude range to pick out different distances Here are F turnoffs at g~=18.5 (7 kpc) Yields another faint stream: GD-1, about 7 kpc distance from the sun, very faint...

DES footprint (Equatorial Coordinates) with A star density Rossetto, B. et al. 2011 AJ 141, 185: Stellar science with DES

Many opportunities for Community Pipeline Proposals Outside the DES footprint, including LMC/SMC! Galactic Center SMC LMC

Summary: Many interesting Galactic Structure and Dynamics projects possible with DECam. We encourage DECam Community Proposals and look forward to working with many!

Best fit The real leverage comes in matching the run distance along the stream.

Tracer star orbits within a 'log r' potential have a characteristic 'trefoil' shape: Internal dispersion within a tidal dwarf stream gives the orbit 'thickness', and it deviates from the central thin orbit track. (Toto, we're not in Kepler's Solar system any more)

80 kpc

Best fit The real leverage comes in matching the run distance along the stream.

SEGUE Target Selection (color,color)

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback