Instrumental challenges for a future B-mode space...
Transcript of Instrumental challenges for a future B-mode space...
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Instrumental challenges for a future B-mode space instruments (some of them…)
Michel Piat Laboratoire AstroParticule et Cosmologie Université Paris Diderot
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CMB Polarised signal (simulations)
www.astro.caltech.edu/~lgg/bicep_front.htm
σB ~ 0.3 μK or less… σT~ 100μK, σE ~ 4μK
Inflationary Gravitational
Wave Background
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BPol
~50cm
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LOI: De Bernardis, Bouchet, Kreysa, Efstathiou, Martinez Pour la collaboration BPol: Denmark, France, Germany, Ireland, Italy, Norway, Portugal, Romania, Spain, Sweden, and the United Kingdom
(~ 2025?)
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Dedicated space mission
Mission concept studies: France: SAMPAN (2006) Europe: BPol (2007) USA: CMBPol (2008-09)
Submitted proposal not selected by agencies Technology not mature enough Wait for Planck results
ESA “recommend focussed technology activities to enable a sufficiently mature mission concept which could be submitted by community in response to future ESA Calls for Missions. (…)”
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Prospect for CMB polarised power spectra
5μK.arcmin, 20arcmin FWHM
l~90
l~10
l~160
l~1140
l~800
l~370
640μK.arcmin, 12arcmin FWHM 60μK.arcmin, 5.5arcmin FWHM
l~1600
l~720
l~7
BPol
WMAP Planck
r 10-1 10-2 10-3 10-4
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BPol as a system: challenges are almost everywhere!
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Telescope Re-imaging optics Phase modulation Filters
Optics
Detector array Readout
Detectors
Passive cooling Active cooling
Cryogenics
Electrical power Telemetry Scanning strategy
Satellite
BPol
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CMB pol space mission: detectors requirements
NEP
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Parameter EPIC, Sampan, BPol λ 1mm-10mm λ/∆λ 3 Angular resolution 10’-1° Detectors number 1000-10000 NEP 3-5.10-18 W.Hz-0.5 Time constant 1-10ms
Planck feedback: Effect of cosmic ray on detectors will be an important driver for a futur CMB polarisation space mission (F. Pajot talk, Thursday morning)
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Detector possible solutions
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Coherent detectors
Semi-conducting
Phased array Horn coupled Lens coupled
Antenna coupled Absorber
Superconducting (TES)
Bolometers
KIDs
Detectors
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State of the art: spider web bolometers (Caltech-JPL) Performances:
300mK: τ=11ms, NEP=1.5 10-17 W.Hz-0.5 100mK: τ=1.5ms, NEP=2.5 10-18 W.Hz-0.5
Already BLIP for CMB observations! ~2λ
L1 thermistor
Dual Analyzer (PSBs)
L2 thermistor
No need to improve bolometer performances but rather increase of bolometer number: Bolometers array
λ/Δλ=4
λ/Δλ=100
λ/Δλ=10000
opt. eff. =1, AΩ=λ2 (Adapted from J.M. Lamarre)
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Transition Edge Sensors
Use of normal-superconducting transition as thermal sensor
Advantages: Large electrothermal
feedback Automatic biasing at Tc Response depends on bias voltage Speed increase wrt to passive
bolometer Less sensitive to T fluctuations
Multiplexing easier using SQUIDs Time or frequency domain
Integration is the key issue 10
DCMB collab.
T (mK)
Superconducting NbSi
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Example of complete detector chain
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Kuo, Bock et al. Caltech-JPL
150GHz Filter Bolometer
Dual pol phased array antennas
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Bolometer coupling: planar ortho-mode transducer (OMT) Design:
Transmission > -0.45dB Reflexion < -10dB Cross-polarisation < -50dB Bandwidth > 30%
Test are about to start…
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(A. Ghribi, BSD collaboration)
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Example of PSB systematic effects
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(Rosset et al., submitted)
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Polarisation modulation
Not imperative, but: Q and U (and V in some cases)
with a single detectors Addresses potential
systematics Simplification of the
scanning strategy
Phase switch: New detection
architecture (bolometric interferometry, pseudo-correlator architecture)
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Single-plate
Multi-plate
Metal mesh
Half Wave Plate
Faraday rotator
Quasioptical reflectors
Delay line
Loaded guide
Digital
Ferrite
Rotating waveguide
Continuous
Waveguide
Metamaterials
Delay line
Filters
Circulators
couplers
Digital
Kinetic inductance
Ferrite
Loaded line
Continuous
Planar
Phase shifters
Polarisation modulator Only modulator used so far with
CMB results (Maxipol)
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Example of superconducting switch design Use of temperature or
current to switch a superconducting bridge to normal
Performances depends on normal resistivity
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(A. Ghribi PhD)
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Kinetic inductance phase shifter Kinetic inductance
variation with current:
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NbN 200nm thickness, 2µm width
An optimised superconducting bridge could be used as analog phase shifter
Prototype at 10-20GHz being designed
(A. Ghribi PhD)
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Conclusions
Sensitivity issue: detector array Solutions in hand: TES Complex system: integration is a
key issue Interesting alternative: KIDs
Polarisation modulators: Improve immunity to systematics Could also add some…
Lessons to be learn from ground based instruments
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Sensitivity Detector array
Immunity to systematics Novel Focal plane
architecture
Ground based instruments