CARMA Observations of AME in Perseuscdickins/AME_talks/Villadsen.pdf · CARMA Observations of AME...
Transcript of CARMA Observations of AME in Perseuscdickins/AME_talks/Villadsen.pdf · CARMA Observations of AME...
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CARMA Observations of AME in Perseus
Jackie Villadsen
July 4, 2012Manchester AME Workshop
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Overview
• observe Perseus AME regions & Planck-identified region with CARMA 8-element array (30 GHz)
• compare to:
• Spitzer high resolution infrared images
• AMI Small Array observations
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Spitzer: Perseus
24 micron
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Spitzer: Perseus
Contours: VSA
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VSA: Perseus
33 GHz - Resolution: 7’
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CARMA: Perseus
31 GHz - Resolution: 2.5’
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CARMA: Perseus
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CARMA: Perseus
Primary beam: 8’
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CARMA: Perseus
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CARMA: Perseus
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Combined Array for Millimeter-wave
Astronomy(CARMA)
ArcminuteMicrokelvin
Imager(AMI)
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15 GHz 31 GHz
6 GHz (8 x 750 MHz) 8 GHz (16 x 500 MHz)
10 x 3.7-m 6 x 3.5-m
5 m / .25 kλ / 14’ 4 m / 0.4 kλ / 9’
20 m / 1 kλ / 3.5’ 12 m / 1.2 kλ / 3’
52o 37o
Antennas
Shortest baseline
Frequency
Longest baseline
Bandwidth
CARMAAMISmall Array 8-Element Array
Latitude
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CARMAAMISmall Array 8-Element Array
A&A 536, A20 (2011)
101
102
103
1 10 100
Flu
x de
nsity
[Jy]
Frequency [GHz]
ModelAncillary dataWMAPPlanck
Fig. 3. Spectrum of the California nebula (NGC 1499), measured usingthe filtered flux method (see text). A simple power-law fit is shown.
100
101
102
103
104
105
1 10 100 1000
Flu
x de
nsity
[Jy]
Frequency [GHz]
ModelAncillary dataWMAPPlanck
Fig. 4. Spectrum of AME-G160.26!18.62 in the Perseus molecularcloud. The best-fitting model consisting of free-free (orange dashedline), spinning dust, and thermal dust (light blue dashed line) is shown.The two-component spinning dust model consists of high densitymolecular gas (magenta dot-dashed line) and low density atomic gas(green dotted line).
significant in some H !! regions (Dickinson et al. 2009; Todorovicet al. 2010). We confirmed the spectral shape with a standardaperture photometry analysis (as described in Sect. 5) and willinvestigate this in more detail in a future publication. Note thatthe excess at 30–100 GHz disappears when the spectrum is cal-culated away from the nearby dust feature to the north-west ofNGC 1499. Given the consistency of the flux densities betweenthe frequencies, and that we have obtained similar results usingstandard aperture photometry, we are confident that the spectrumcalculated using the filtered maps is robust.
The spectrum for AME-G160.26!18.62 in Perseus is shownin Fig. 4. The flux densities and associated errors are listedin Table 2. The spectrum is well sampled across the radio,microwave and FIR regimes and is a significant improvementon that presented in Watson et al. (2005), with the additionalPlanck data allowing a much more accurate spectrum of theAME to be extracted. The low-frequency (<2 GHz) data showa flat spectrum consistent with free-free emission while the high
Table 2. Flux densities for AME-G160.26!18.62 in the Perseus molec-ular cloud and residual fluxes when free-free, CMB and thermal dustcomponents are removed.
Frequency Flux density Flux density residual[GHz] [Jy] [Jy]0.408 9.7 ± 3.3 0.2 ± 3.40.82 9.4 ± 4.7 0.5 ± 4.81.42 8.0 ± 1.7 !0.5 ± 1.810.9 16.1 ± 1.8 9.4 ± 2.012.7 20.0 ± 2.2 13.3 ± 2.414.7 28.4 ± 3.1 21.8 ± 3.316.3 35.8 ± 4.0 29.3 ± 4.222.8 39.8 ± 4.2 33.4 ± 4.528.5 38.1 ± 4.0 31.5 ± 4.433.0 36.7 ± 3.9 29.7 ± 4.440.9 30.8 ± 3.3 22.6 ± 4.044.1 28.5 ± 3.2 19.6 ± 4.061.3 27.4 ± 3.4 10.9 ± 6.470.3 32.2 ± 3.9 8.9 ± 9.093.8 63.0 ± 7.8 7 ± 21100 78 ± 15 10 ± 29143 202 ± 22 !25 ± 80217 1050 ± 130 120 ± 320353 3860 ± 470 !600 ± 1400545 15 300 ± 2100 !800 ± 4900857 48 700 ± 6100 !1000 ± 14 0001250 93 000 ± 13 000 !2400 ± 28 0002143 117 000 ± 15 000 7000 ± 35 0002997 53 600 ± 6700 !2000 ± 20 000
Notes. The fitted spinning dust model consists of two components.
frequencies (>100 GHz) are dominated by thermal dust emis-sion. The excess at "10–70 GHz is evident and has a peaked(convex) spectrum, with a maximum at 25 GHz.
The data allow us to fit a multi-component parametricmodel to the flux density spectrum. The model consists offour components: free-free emission; thermal dust emission; aCMB fluctuation; and spinning dust emission. The sum is
S = S ! + S td + S cmb + S sp. (1)
The free-free flux density, S ! , is calculated from the brightnesstemperature, T!, based on the optical depth, !! , using the stan-dard formulae:
S ! =2kT!""2
c2 , (2)
where k is the Boltzmann constant, " is the solid angle, and " isthe frequency,
T! = Te(1 ! e!!! ), (3)
and the optical depth, !! , is given by
!! = 3.014 # 10!2T!1.5e "!2EMg! , (4)
where Te is the electron temperature (in units of K), EM is theemission measure (in units of cm!6 pc) and g! is the Gaunt fac-tor, which is approximated as
g! = ln!4.955 # 10!2
"/GHz
"+ 1.5 ln(Te). (5)
It is the Gaunt factor that results in a slight steepening of the free-free spectrum with frequency, which is particularly pronouncedat !100 GHz.
A20, page 6 of 17
(Planck 2011)
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Spectral Index Maps
• Goal: 15-to-30 GHz spectral index map
• Important factors:
• Flux calibration
• ideally same flux calibrator
• Matching uv coverage
• Missing short spacings
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Simulations
• assumed same flux for CARMA & AMI (= uniform flat spectral index)
Perseus
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uv Coverage
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uv Coverage
• Question: what is best way to match uv coverage?
• uv-distance restriction
• filter uv points based on distance from each other - cutoff distance:
• 1/(mosaic size)?
• 1/(primary beam)?
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uv Coverage
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uv Coverage
• Question: what is best way to match uv coverage?
• uv-distance restriction
• filter uv points based on distance from each other - cutoff distance:
• 1/(primary beam)?
• N/(primary beam)? N ~ 0.5
• 1/(mosaic size)?
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uv Filtering
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uv Coverage
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uv FilteringBefore After
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Perseus C:CARMA and AMI
CARMA: 8,12,16,20 mJy/beamAMI: 2,4,...,12 mJy/beam
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uv Coverage
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Perseus:CARMA and AMIAMI CARMA
10,12.5,...,35 mJy/beam2,4,...,20 mJy/beam
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Free-free & Thermal Dust
• Free-free: planned ATA observations
• Thermal dust: Herschel 500 micron
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Future• More simulations
• More wavelengths - ATA, Herschel
• Zero spacings & short baselines
• Component separation?
• CARMA upgrade - 1 cm receivers on large dishes, long baselines - pair with AMI Large Array?
• Potential follow up: Planck, AMI SA rising spectral index sources