gaia and mpia · gaia characteristics hipparcos gaia magnitude limit h =12.4 g = 20.0 no. sources...
TRANSCRIPT
![Page 1: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/1.jpg)
Gaia and MPIA
Coryn Bailer-Jones20 Feb. 2013PSF Seminar
![Page 2: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/2.jpg)
high accuracy positions,parallaxes, proper motions
e.g. 15-25 μas at G=15
Gaia in a nutshell
radial velocities toG<17 (1-15 km/s)
opticalspectrophotometry
pure survey:entire sky to G=20
~109 sources astrophysicalparameters
![Page 3: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/3.jpg)
ESA/C. Carreau
![Page 4: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/4.jpg)
ESA/AOES Medialab
![Page 5: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/5.jpg)
Payload module
![Page 6: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/6.jpg)
Instruments
![Page 7: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/7.jpg)
Gaia characteristics
Hipparcos Gaia
Magnitude limit H =12.4 G = 20.0
No. sources 120 000 ~ 1 000 000 000
quasars 0 ~ 0.5 million
galaxies 0 ~ 5 million
Astrometric accuracy* ~ 1000 μas 9-26 μas at G=15
100-330 μas at G=20
Photometry 2 bands spectrophot. 330-1000 nm
Radial velocities* none 1-13 km/s to G=17
Target selection input catalogue real-time onboard selection
*for 72 observations (i.e. average end-of-mission accuracy)
![Page 8: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/8.jpg)
Gaia distances
Imag
e: N
GC
4565
from
pan
ther
-obs
erva
tory
.com8kpc
150 million stars with fde <10%
10 million stars with fde <1%
100 000 stars with fde <0.1%
fde = fractional distance error
![Page 9: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/9.jpg)
How the astrometric accuracy varies
• astrometric errors dominated by photon statistics
• parallax error: σ(ϖ) ~ 1/√flux
• for fixed MG
★ σ(ϖ) ~ distance, d
★ fractional parallax (and distance) error, σ(ϖ)/ϖ ~ d2
★ transverse velocity error, σ(v) ~ d2
• example accuracy
★ K giant at 6 kpc (G=15): frac. dist. error = 2%, σ(v) = 1 km/s
★ G dwarf at 2 kpc (G=16.5): frac. dist. error = 8%, σ(v) = 0.4 km/s
![Page 10: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/10.jpg)
300 400 500 600 700 800 900 1000
0.0
0.2
0.4
0.6
0.8
1.0
wavelength / nm
flux
(pho
tons
x c
onst
ant)
300 400 500 600 700 800 900 1000
0.0
0.2
0.4
0.6
0.8
1.0
wavelength / nm
flux
(pho
tons
x c
onst
ant)
0 20 40 60 80
020
0060
0010
000
pixel (wavelength in nm at top)
flux
(pho
tons
/pix
el)
328 386 500 715 659 759 895 1082
Spectrophotometry (BP/RP)
source spectra: blue = starsred = quasars
resulting spectra350 - 1050 nm
![Page 11: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/11.jpg)
400 500 600 700 800 900 1000
050
010
0015
0020
0025
0030
0035
00
wavelength / nm
coun
ts
Teff=4000K
Teff=4500K
Teff=5000K
Teff=6000K
Teff=7000K
Teff=8500K
strong temperature (Teff)signature (likewise extinction)shown: Teff = 4000 to 15 000 K
much weaker metallicity signature(likewise surface gravity)
shown: [Fe/H] = -2.5 to +0.5 dex
Stellar parameters from spectrophotometry (BP/RP)
400 500 600 700 800 900 1000
010
020
030
040
050
060
070
0
wavelength / nm
coun
ts
![Page 12: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/12.jpg)
Radial velocity spectra
• slitless spectrograph
• R = 11 500, around CaII triplet
• Vrad to 1-10 km/s for V < 17
• higher SNR spectra for millions of stars with V < 14 (helps parameter estimation)
![Page 13: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/13.jpg)
Scanning law: No. observations in equatorial coords
![Page 14: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/14.jpg)
Some science objectives
• Galactic structure
★ formation of disk and halo (substructure, merger history)
★ dark matter content
★ chemical evolution, star formation history
• Stellar structure and evolution
★ accurate luminosities
★ stellar cluster structure, kinematics, ages
• Binary systems (including exoplanets)
• Solar system asteroids, including near-earth objects
• General Relativity tests
![Page 15: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/15.jpg)
Stellar clusters
• about 70 clusters and associations within 500 pc
★ individual stellar distances to 0.5-1% at G=15 (K3 V)
★ individual stellar transverse velocity accuracy to < 50 m/s at G=15
• science possibilities
★ ages, He abundance from model fitting
★ examine mass segregation, cluster dispersion
★ confirm new (refute old) clusters
★ use as abundance tracers in disk out to tens of kpc
• saturation limit is G=1.5 to 5.7 (TBD)
![Page 16: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/16.jpg)
Exoplanets
• astrometric signature of a companion
★ e.g. for 47 UMa b (K = 49 m/s, M > 2.5 MJup, P = 2.95 years) α ~ 360 μas
• identified as poor fit to 5-parameter single star solution
• all-sky, magnitude limited survey
★ no spectral type selection
★ expect 50 000 of the 20 million non-single star detections to be planets(mostly Jupiter-like at 1-4 AU from host out to 200pc)
★ expect orbital solutions for about a third of these (periods up to ~10 yrs)
α ∼ Mp
Ms
apd
![Page 17: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/17.jpg)
![Page 18: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/18.jpg)
EADS Astrium
![Page 19: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/19.jpg)
Timescale
• ESA mission, built by industry. Data processing by DPAC
• Timescale
★ launch (L): October 2013
★ science operations start: L + 6m
★ data releases expected: L + 22m, 28m, 40m, 65m
★ end of operations: end 2018 (or 2019)
★ final catalogue: end of operations + 36m (end 2021 or 2022)
• Data policy: no proprietary period; DPAC does no “astrophysics”
![Page 20: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/20.jpg)
Gaia catalogue data products
• astrometry: position, parallax, proper motion
• photometry: G, GBP, GRP, GRVS (and time series)
• spectrophotometry (BP/RP)
• radial velocity spectra and radial velocities
• object class probabilities (star, galaxy, quasar, etc.)
★ also outlier/novelty detection
• source astrophysical parameters (with probability distributions)
★ Teff, [Fe/H], logg, line-of-sight extinction, ...
• variable star classification
• (partial) orbital solutions for star/planet systems
• asteroid orbits and properties
![Page 21: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/21.jpg)
Intermediate data release content
• L+22m: position, G mag for 90% of sources; HTPM
• L+28m: position (+ some parallax, PM); integrated BP/RP photometry (+ rudimentary APs); mean RV of bright stars (90% of sources)
• L+40m: position, parallax, PM for 90% of sources; some binary orbits; BP/RP spectrophotometry plus (strong) APs; mean RVs; some APs based on bright RV spectra; ground-based auxiliary data
• L+65m: as L+40m (improved precision) plus: more detailed APs; variability classification + epoch photometry; solar system results; non-single star catalogue
AP = (stellar) astrophysical parameterL = October 2013
![Page 22: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/22.jpg)
Gaia group @ MPIA
• part of the Data Processing and Analysis Consortium (DPAC)
• CU8 “Astrophysical Parameters” (since 2006)
★ probabilistic source classification (star, quasar, galaxy etc.)
★ stellar parameter estimation (Teff, A0, [Fe/H], logg)
★ using BP/RP and astrometry
★ 4 postdocs (3 DLR funded)
• CU9 “Catalogue Access” (starting 2014)
★ cross matching (with SDSS, UKIDSS, Pan-STARRS, etc.)
★ valued-added catalogues (improved/extended parameters)
★ 2 postdocs (1 DLR funded)
![Page 23: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/23.jpg)
Coryn Bailer-Jones(staff)
Dae-Won Kim(postdoc)
Gaia software,time series
Richard Hanson(PhD student)
Galactic 3D extinction & dust modelling
Fabo Feng(PhD student)
solar orbit, astronomical impacts on Earth
Tri Astraatmadja(postdoc)
Gaia software,(astroparticle physics)
Kester Smith(staff)
Gaia software,BHB stars
Rene Andrae(postdoc)
Gaia software,statistics
![Page 24: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/24.jpg)
What now?
• identify science projects which build on the MPIA’s strengths
• get ready for the data
★ prepare models and analysis tools in advance
★ acquire auxiliary data, observations, simulations etc.
★ look at the simulated data
• more information
★ http://www.rssd.esa.int/index.php?project=GAIA
★ large number of technical notes and publications
![Page 25: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/25.jpg)
Astrophysical parameter accuracy
• Accuracy (mean abs.) is a function of G and APs themselves
★ Teff 3000:1000K, A0 0:10mag, [Fe/H] -2.5:+0.5dex, logg 2.5:5.5dex
• At G=15 for A0 < 1mag
★ Teff 60-110K, A0 0.05mag, [Fe/H] 0.15dex (0.5dex A stars), logg 0.25dex
• At G=15 averaged over all A0
★ Teff 110-180K, A0 0.07mag, [Fe/H] 0.4dex (0.7dex A stars), logg 0.3dex
• At G=19 for A0 < 1mag
★ Teff 250-400K, A0 0.1-0.15mag, [Fe/H] 0.35 (G/K stars), logg 0.4dex
![Page 26: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/26.jpg)
Astrophysical parameter accuracy (Teff)
0
50
100
150
200
2500<A
0<1
!T
eff(K
)
4000 6000 8000!150
!100
!50
0
50
100
M K G F A
<"
Te
ff>(K
)
Teff
(true)(K)
1<A0<2
4000 6000 8000
M K G F A
Teff
(true)(K)
0
300
600
900
1200
15005<A
0<10
4000 6000 8000!1500
!1000
!500
0
500
1000
M K G F A
Teff
(true)(K)
upper row: mean absolute error (“random”) lower row: mean error (“systematic”)colours: four different algorithms
![Page 27: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/27.jpg)
Astrophysical parameter accuracy
mean absolute accuracy variation with GRed lines show 50% and 90% quantiles
8 10 12 14 16 18 200
200
400
600
G(mag)
!T
eff
8 10 12 14 16 18 200
0.1
0.2
0.3
0.4
G(mag)
!A
0
8 10 12 14 16 18 200
0.5
1
1.5
G(mag)
!Logg
8 10 12 14 16 18 200
0.5
1
1.5
G(mag)
![F
e/H
]
![Page 28: Gaia and MPIA · Gaia characteristics Hipparcos Gaia Magnitude limit H =12.4 G = 20.0 No. sources 120 000 ~ 1 000 000 000 quasars 0 ~ 0.5 million galaxies 0 ~ 5 million Astrometric](https://reader033.vdocuments.net/reader033/viewer/2022060220/5f0716aa7e708231d41b3ed0/html5/thumbnails/28.jpg)
Exoplanet discovery space (Gaia astrometry)
S. Casertano et al.: DBT campaign for planet detection with Gaia 719
Fig. 21. Boundaries of secure (!3!, for ! =8 µas) detection and accurate mass and orbitalparameters determination with Gaia comparedto the known extrasolar planets (data fromhttp://exoplanet.eu), which are plottedfor the minimum case: orbit viewed edge-on, true mass equals radial velocity mini-mum mass, and astrometric signature mini-mum. Lines of di!erent shape represent theminimum astrometric signature for 95% prob-ability of a 3! detection (solid line), the min-imum astrometric signature needed to deter-mine at least 50% of the time the mass of aplanet with better than 15% accuracy (dash-dotted line), the eccentricity with uncertain-ties <0.1 (short-dashed line), and the inclina-tion angle with uncertainties <10" (long-dashedline), respectively. The true astrometric signa-ture, which is proportional to the true mass, willbe generally higher, much higher in some cases,with the e!ect that more reliable detections andorbital fits will be possible.
Fig. 22. Gaia discovery space for planets ofgiven mass and orbital radius compared to thepresent-day sensitivity of other indirect detec-tion methods, namely Doppler spectroscopyand transit photometry. Red curves of di!er-ent styles have the same meaning as in Fig. 21assuming a 1-M# G dwarf primary at 200 pc,while the blue curves are for a 0.5-M# M dwarfat 25 pc. The radial velocity curve (pink line) isfor detection at the 3!RV level, assuming !RV =3 m s$1, M" = 1 M#, and 10-yr survey dura-tion. For transit photometry (green curve), theassumptions of Gaudi et al. (2005) are used, i.e.!V = 5 milli-mag, S/N = 9, M" = 1 M#, R" =1 R#, uniform and dense (>1000 datapoints)sampling. Black dots indicate the inventory ofexoplanets as of September 2007. Transitingsystems are shown as light-blue filled pen-tagons. Jupiter and Saturn are also shown as redpentagons.
red: 1 M⊙ host at 200pcblue: 0.5 M⊙ host at 25pc
pink: RV detection at 3sigma for 3 m/s accuracy
black points: planets as of September 2007
light blue: transiting systems
red pentagons: Jupiter and Saturn
Casertano et al. 2008