guiding principles scientific excellence internal synergy special niche/visibility
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Guiding Principles Scientific Excellence Internal Synergy Special Niche/Visibility Cornell Leadership. We propose: A project of scientific excitement and uniqueness, from planets to Cosmology, in the IR/submm niche; with focus that emphasizes Cornell’s instrument - PowerPoint PPT PresentationTRANSCRIPT
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Guiding Principles
• Scientific Excellence• Internal Synergy• Special Niche/Visibility• Cornell Leadership
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We propose:
• A project of scientific excitement and uniqueness, from planets to Cosmology, in the IR/submm niche;• with focus that emphasizes Cornell’s instrument building talent;• that can sensibly be completed within the decade;• that will place Cornell in the forefront of research in one of the most rapidly developing observational/ technological fields;• that will provide Cornell with strong leverage for ALMA access/joint project development;• of cost that will allow Cornell to lead.• A development strategy that will place Cornell to advantage on a pathway to a “high altitude observatory”.
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•A 25m class FIR/submm telescope that will operate with high aperture efficiency down to = 200
•With large format bolometer array cameras (FOV>5’) and high res heterodyne receiver
•At a high site with PWV<1 mm and wide sky coverage
•NOT confusion-limited with exposures of 24 hrs or less
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Science Goals:Science Goals: 1.1.Galaxy Formation & EvolutionGalaxy Formation & Evolution2.2. ISM, Disks, Star & Planet Forming RegionsISM, Disks, Star & Planet Forming Regions3.3. CMB and the SZECMB and the SZE4.4. Solar System ObjectsSolar System Objects
Let’s consider two particularly illustrative cases:Let’s consider two particularly illustrative cases: - galaxies in the early Universe- galaxies in the early Universe - KBOs and Irregular Satellites in the Solar System- KBOs and Irregular Satellites in the Solar System
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Photospheric lightfrom stars
Photospheric lightReprocessed by dust
Microwave Background
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gas density
sta
r fo
rmati
on
rate
Starburst systems emit the vast Starburst systems emit the vast majority of their light in the IRmajority of their light in the IR
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The AT will detectThe AT will detectSFR~10-30 up to aSFR~10-30 up to a z ~ 3, and z ~ 3, and SFR~100 at all zSFR~100 at all z
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Access to multiple FIR Access to multiple FIR bands can yieldbands can yieldphotometric redshiftsphotometric redshifts
A 3000 hr survey with the AT will detect ~ 200,000 galaxies,A 3000 hr survey with the AT will detect ~ 200,000 galaxies,mostly with z ~ 2-4, but easily up to z ~ 10 (if they exist)mostly with z ~ 2-4, but easily up to z ~ 10 (if they exist)
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Which will be accurate enough (~ 20%) to allow investigationWhich will be accurate enough (~ 20%) to allow investigationof the evolution of LSS, via the dependence on z of the 2—ptof the evolution of LSS, via the dependence on z of the 2—ptangular correlation function w(theta)angular correlation function w(theta)
… … as well as disentangleas well as disentangle the SFR history of the the SFR history of the UniverseUniverse
… … at z=0 at z=3…?at z=0 at z=3…?
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Star FormationStar FormationRate in the Rate in the UniverseUniverse
For
67.0
7.0
3.0
h
mass
t(z=0) = 14.0 Gyrt(z=1) = 6.0 Gyrt(z=2) = 3.4 Gyrt(z=3) = 2.2 Gyrt(z=4) = 1.6 Gyrt(z=5) = 1.2 Gyr after BB
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FIR spectroscopy of most of the galaxies detected inthe continuum will be detectable also in spectral linessuch as [OI] 63 , [OIII] 88 , [NII] 205 and,especially, [CII] 158
[CII] 158 will be traceable between z=0.25 and z=4.8,as it gets redshifted across the submm telluric windows.
FIR spectroscopy will allow the study of the physicalconditions in the star forming gas, the properties ofthe interstellar radiation field, as well as the internaldynamics of primeval galaxies and of their mergerhistories.
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In a primeval galaxy survey by the AT, the combination of:
• statistical wealth (nr of detections)• access to multiple submm bands (photometric z)• quality of SED determination• redshift and SFR stretch• access to fine structure FIR lines• ability to carry out deep surveys
will be unmatched by those of any existing or currentlyplanned telescope.
As the light of distant galaxies reaches usAs the light of distant galaxies reaches usmainly in te FIR/submm, AT will be primemainly in te FIR/submm, AT will be primeinstrument for study of galaxy formation instrument for study of galaxy formation
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Studies of faint Solar System obsjectsStudies of faint Solar System obsjectsillustrate well a most important concernillustrate well a most important concernfor FIR/submm telescopes:for FIR/submm telescopes:
CONFUSIONCONFUSION
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KBOs: trans-Neptunian objects probably formed early in theKBOs: trans-Neptunian objects probably formed early in theOuter reaches of the solar protoplanetary disk.Outer reaches of the solar protoplanetary disk.Several hundreds known; Pluto (D~2400km), Charon (D~1200 km),Several hundreds known; Pluto (D~2400km), Charon (D~1200 km),Varuna (D~900km) are the largest.Varuna (D~900km) are the largest.
Optical/NIR observations yield orbital parms, flux – not size.Optical/NIR observations yield orbital parms, flux – not size.
At distances of 40-50 AU, KBOs have temperatures near 45 K,At distances of 40-50 AU, KBOs have temperatures near 45 K,emitting most of their radiation in FIR. Pluto, Charon, Varuna & emitting most of their radiation in FIR. Pluto, Charon, Varuna & Chaor have been detected at 850 mm by JCMT, yielding sizesChaor have been detected at 850 mm by JCMT, yielding sizesand albedos. In the RJ regime, the flux at the wavelength and albedos. In the RJ regime, the flux at the wavelength is is
5.2224107.2 DSmJywhere D is the KBO diameter and where D is the KBO diameter and is its distance is its distance
The measurement of S yields the size D and, in combination withThe measurement of S yields the size D and, in combination withoptical/NIR measurements of the reflected light, the albedo andoptical/NIR measurements of the reflected light, the albedo andestimates of the surface properties.estimates of the surface properties.
Problems: sensitivity and confusionProblems: sensitivity and confusion
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The AT could easily detect KBOs with D~150 km in few hours and, withThe AT could easily detect KBOs with D~150 km in few hours and, withsufficient integration, it could detect even smaller objects withoutsufficient integration, it could detect even smaller objects withoutbecoming confused.becoming confused.
Hundreds of thousands KBOs with D>100 km may exist: the ATHundreds of thousands KBOs with D>100 km may exist: the ATcould reveal the size function and surface properties of the KBOcould reveal the size function and surface properties of the KBOpopulation.population.
Serendipity: exposures of the kind required by primeval galaxy surveys Serendipity: exposures of the kind required by primeval galaxy surveys may be able to detect ~ 1 KBO per frame.may be able to detect ~ 1 KBO per frame.
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Irregular SatellitesIrregular Satellites
They come inThey come infamilies: families: the result ofthe result offragmentation?fragmentation?
SizesSizesmeasurable to measurable to few kmfew km albedosalbedos
If fragments ofIf fragments oforiginally singleoriginally singleobject object same albedosame albedo in each familyin each family
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Comparisons and SynergiesComparisons and Synergies
SIRTFSIRTF
HerschelHerschel
APEXAPEX
ALMAALMA
JCMTJCMT
LMTLMT
ATAT
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1.1. SIRTF: a cryo-cooled telescope of D=0.85mSIRTF: a cryo-cooled telescope of D=0.85m2.2. Herschel: a cryo-cooled telescope of D=3.5mHerschel: a cryo-cooled telescope of D=3.5m both extremely sensitive but rapidly confusion limited in the FIRboth extremely sensitive but rapidly confusion limited in the FIR will stimulate, rather than quench, research with the ATwill stimulate, rather than quench, research with the AT
3. JCMT: 15 m, submm telescope atop MK3. JCMT: 15 m, submm telescope atop MK4. CSO: 10m, submm telescope atop MK4. CSO: 10m, submm telescope atop MK currently best submm telescopes on Earth, confusion limited atcurrently best submm telescopes on Earth, confusion limited at flux limits of cosmological (and other) interestflux limits of cosmological (and other) interest show impact that unique submm facility can have (SCUBA)show impact that unique submm facility can have (SCUBA)
5. APEX (Alma Precursor Experiment) 12 m telescope at Chajnantor5. APEX (Alma Precursor Experiment) 12 m telescope at Chajnantor will likely be most sensitive submm telescope until ALMA starts ops.will likely be most sensitive submm telescope until ALMA starts ops. at lower site and ¼ the collecting area, it will be overwhelmedat lower site and ¼ the collecting area, it will be overwhelmed by ATby AT
6. LMT: 50m, mm telescope atop Sierra Negra6. LMT: 50m, mm telescope atop Sierra Negra very sensitive, but rapidly confusion-limitedvery sensitive, but rapidly confusion-limited will excel in high resolution, interstellar gas spectroscopywill excel in high resolution, interstellar gas spectroscopy poor site and antenna design prevents submm workpoor site and antenna design prevents submm work
7. ALMA: 64x12m array to operate ~ above 0.5 mm at Chajnantor7. ALMA: 64x12m array to operate ~ above 0.5 mm at Chajnantor hi res, small FOV, eminently complementary with AThi res, small FOV, eminently complementary with AT
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SiteSite
Cerro Negro?Cerro Negro?
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InstrumentationInstrumentation
1.1. 10K bolometer array operating at 350 and 450 10K bolometer array operating at 350 and 450 m (*)m (*)
2. 10K bolometer array operating at 620 and 850 mm2. 10K bolometer array operating at 620 and 850 mm
3. R=1000, 4x256 grating spectrometer3. R=1000, 4x256 grating spectrometer
4. 10K bolometer array operating at 200 mm4. 10K bolometer array operating at 200 mm
5. High spectral res heterodyne system5. High spectral res heterodyne system
(*) operating at first light(*) operating at first light