Advanced Imaging and Ultra-fast Material Probing With ... M--Advanc… · Advanced Imaging and...
Transcript of Advanced Imaging and Ultra-fast Material Probing With ... M--Advanc… · Advanced Imaging and...
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Advanced Imaging and Ultra-fast Material Probing With Inverse Compton Scattering
A proposal to the Brookhaven Accelerator Test Facility
Gerard Andonian£, Alberto Bacci€, Ubaldo Bottigli¢, Massimo Carpinelli‡*, Pasquale Delogu§, Marco Endrizzi§, Mauro Gambaccini #, Antonio Franconieri #, Atsushi Fukusawa£, Bruno Golosio‡, Erik Hemsing£, Gabriel Marcus£, Agostino Marinelli£, Pietro Musumeci£, Piernicola Oliva‡, Finn O’Shea£, Vittoria Petrillo€, Igor Pogorelskyß, James Rosenzweig£*, Luca Serafini€, Arnaldo Stefanini§, Oliver Williams£, Vitaly Yakimenkoß
ßBrookhaven National Laboratory#Università di Ferrara and INFN €Università di Milano and INFN
§Università di Pisa and INFN‡Università di Sassari and INFN¢Università di Siena and INFN
£UCLA Dept of Physics and Astronomy*co-spokesmen
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Scientific goals
• Study of the fundamental electrodynamics of the ICS interaction
• Applications of ICS
- Medical Applications
- Cultural Heritage applications
- etc..
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INFN Collaboration• In Italy there is a growing interest for ICS
• BEATS (BEam lines at Thomson Source): experiments with X-rays, approved and funded by INFN (7 Institutions/ ~ 20 Physicist involved)
• INFN sponsored an international ICFA workshop on ICS last year in Alghero
• Collaborations with important Medical Institutions already in place (San Raffaele Hospital in Milano)
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Planned experiments @ INFN/LNF
• SPARC (High Brightness Electron Beams 10^15 A/m^2rad^2)
• FLAME (High Intensity Laser Beams 10^20 W/cm^2)
• PLASMONX (PLasma Acceleration @ Sparc & MONochromatic X-rays)
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Applications
• Dichromatic subtraction
• Phase Contrast Imaging
• Mammography
• Low dose breast and lung CT
For all applications first step is
spectral measurement
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Experimental input:Improved spectral measurement
• Need to characterize ICS differential spectrum–Linear and nonlinear
• Use UCLA-built focusing spectrometer from PLEIADES
Schematic of focusing spectrometer
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Experimental input:Improved spectral measurement
• Need to characterize ICS differential spectrum–Linear and nonlinear
• Use UCLA-built focusing spectrometer from PLEIADES
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Example: Nonlinear ICS spectrum
• Angular dependence of ICS harmonics calculated for the UCLA Neptune nonlinear ICS experiment
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X-ray radiography in cultural heritage
•Non destructive and not invasive diagnostic
•Gives informations on:–execution techniques–underpainting–“pentimenti”
•Does not provide elemental composition
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La mietitura a Montfoucault
Copia da Pissarro
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Radiografia X
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Dual energy digital subtraction radiography
•Use of dichromatic techniques in coronary angiography is well known, using Iodine K-edge
•Application to cultural heritage analysis includes Zn and Cu, contained in several pigments
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Dual energy technique•For a (quasi) monochromatic X-ray beam, the signal is proportional to the number of photons reaching the detector after transmission
•Digital subtractions of two images above and below the K-edge
•Distribution of mass attenuation coefficient of the interesting element (Zn as an example) and of the other elements in the painting
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White pigments•zinc white (ZnO) and titanium white (TiO2) in linseed oil
•calcium carbonate (CaCO3) and lithopone (BaSO4+ ZnS) on canvas
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White pigments•zinc white (ZnO) and titanium white (TiO2) in linseed oil
•calcium carbonate (CaCO3) and lithopone (BaSO4+ ZnS) on canvas
Zinc white
Lithopone Calcium Carbonate
Titanium white
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K-edge = 9.65 keV
800
600
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Mas
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coef
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g)
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Energy (keV)
Zn K-edge = 9.65 keV
Absorption peaks
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K-edge = 9.65 keV
800
600
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Mas
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coef
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g)
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Energy (keV)
Zn K-edge = 9.65 keV
Absorption peaks
9.18 keV
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K-edge = 9.65 keV
800
600
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0
Mas
s at
tenu
ation
coef
ficien
t (c
m2 /
g)
403530252015105
Energy (keV)
Zn K-edge = 9.65 keV
Absorption peaks
9.18 keV
10 keV
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Results•Two color digital subtraction has been successfully applied (By INFN Ferrara group) using a standard x-ray tube and a Bragg crystal monochromator
•Images have been acquired with two digital detector (CMOS and CCD)
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below K_edge above K_edgeSample
on canvas
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below K_edge above K_edge ZincSample
on canvas
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below K_edge above K_edge Zinc other elementsSample
on canvas
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X-ray tube
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X-ray tubeCristall
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X-ray tubeCristall
Collimators
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X-ray tubeCristall
Collimators
Step motor
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X-ray tubeCristall
Collimators
Step motor
Test ObjectThursday, April 2, 2009
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X-ray tubeCristall
Collimators
Step motor
Test Object
Detector
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CCD detector
150x6 mm3075x128 pixelpixel size 48x48 μm
Voltage 19.5 keV; current 80mA; acquisition time 5 sec E below K-edge = 9.29 keVE above K-edge = 10.08 keV
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CMOS detector
50x50 mm1024x1024 pixelpixel size48x48 μm
due differenti aree sensibili di uguali dimensioni
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CMOS detector
50x50 mm1024x1024 pixelpixel size48x48 μm
due differenti aree sensibili di uguali dimensioni
Active area
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Different resolution
CMOS CCD
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Elements K (KeV) L-I (KeV)
L-II (KeV)
L-III (KeV)
Pigments
29 (Cu) 8.9789 1.0961 Azzurrite, Rosso di Smalto, Resinato di Rame, Verde di Smalto,Verde di Malachite, Verde Veronese, Verdigris
30 (Zn) 9.6586 1.1936 1.0428 1.0197 Bianco di Zinco, Giallo di Cadmio, Verde di Cobalto, Verde diZinco
33 (As) 11.8667 1.5265 1.3586 1.3231 Realgar, Verde Veronese, Violetto di Cobalto
38 (Sr) 16.1046 2.2163 2.0068 1.9396 Giallo di Stronzio
42 (Mo) 19.9995 2.8655 2.6251 2.5202 Arancio di Cromo
48 (Cd) 26.7112 4.018 3.727 3.5375 Arancio di Cadmio, Giallo di Cadmio, Giallo di Smalto, Rosso diCadmio, Verde di Cadmio
80 (Hg) 83.1023 14.8393 14.2087 12.2839 Cinabro di Miniera
82 (Pb) 88.0045 15.8608 15.2 13.0352 Arancio di Cromo, Giallo di Cromo, Giallo di Napoli, Giallo diPiombo – Stagno, Litargirio, Massicot, Bianco di Piombo,Verde di
Cinabro, Minio, Rosso di Cromo
83 (Bi) 90.5259 16.3875 15.7111 13.4186 Bianco di Bismuto
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K-edge = 9.65 keV
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Energy (keV)
Zn K-edge = 9.65 keVAs K-edge = 11.80 keVBr K-edge = 13.47 keVCd K-edge = 26.71 keV
Ti K-edge = 4.96 keV
Absorption peaks
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Dual energy at ATF•ICS quasi-monochromatic and tunable X-ray source are very promising to produce in short time maps of several pigments
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Phase Contrast Imaging•Based on the fact that for several biological tissues, elastic cross section (causing a shift in the X-ray phase) is mach bigger then absorption cross section
•Observation of interference pattern•Edge enhancement in the image•In-line (propagation based) was first proposed by Snigirev (1995)
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∫−= dss)(2δ
λπ
φ
PHASE CONTRAST IMAGINGModulation of the intensity on the detector can be described in terms of refraction index. The real part affect the phase, the imaginary one the absorption. In-line phase contrast sensitive to ∇2φ).
n=1-δ-iββ: absorption (10-9 –10-11)*
δ: phase shift (10-6 –10-8)*
*)biological tissues, for x ray at the 10-100keV range
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Various PCI
1 image several images several images
Flux, dose, sample movements have to be considered
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Transverse coherence length:small source linear sizelarge source-object distance
Longitudinal coherence lengthsmall Energy Bandwidth
Phase contrast imaging using a polychromatic beamfirst demonstrated by Wilkins et al.
X-ray Phase Contrast imaging technique
lt: coherence lengthzobj: source-object distanceλ: wave lengthS: linear dimension of the source
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Small source size: FWHM ≈ 10-20 µm
Small angular divergence: θ ≈ 5 mrad ⇒ relatively high intensity at large distance from the source
Quasi-monochromatic spectrum: energy bandwidth relatively small compared to x-ray tube systems
Some typical ICS source parameters
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Small source size: FWHM ≈ 10-20 µm
Small angular divergence: θ ≈ 5 mrad ⇒ relatively high intensity at large distance from the source
Quasi-monochromatic spectrum: energy bandwidth relatively small compared to x-ray tube systems
Some typical ICS source parameters
⇒ ICS sources are suitable for Phase Contrast imaging
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Challenging imaging task:Normal and pathological tissues have
very similar attenuation coefficients
Need to image small (100µm) details
Low contrast
High spatial resolution
Fluence: compromise between image quality and delivered doseBest energy: depends on breast thickness and compositionIt has to match imaging detector efficiency.Accepted values for the best energy useful in mammography range:
from 17keV to 25keV
Mammography
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MAMMOGRAPHY - MASSIVE TUMORS
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MAMMOGRAPHY - MASSIVE TUMORSSPICULATED LESION ON FIBROADIPOSE TEXTURE
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MAMMOGRAPHY - MASSIVE TUMORSSPICULATED LESION ON FIBROADIPOSE TEXTURE SPICULATED LESIONS ON
FIBROGLANDULAR TEXTURE
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MAMMOGRAPHY - MASSIVE TUMORSSPICULATED LESION ON FIBROADIPOSE TEXTURE SPICULATED LESIONS ON
FIBROGLANDULAR TEXTURE
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Tumor like massSpherical shape1 mm diameterglandular tissue compositiondensity 1.044 g/cm3
Breast tissue4 cm thickness50 % glandular tissue50 % adipose tissuedensity 0.984 g/cm3
Compositions from ICRU 44 Dose: 1.5 mGy Fluence: 2.09·107 photons/mm2 at 20 keV monochromatic
energy
Simulated Reference Sample and parameters for mammography
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XRAYLIB: software libraries of x-ray fundamental parameters ⇒ compound materials refractive index real and imaginary part relatively
Specialized Monte Carlo simulation software based on variance reduction techniques, much faster than other general purpose Monte Carlo Codes
⇒ detailed study of absorption imaging using monochromatic, polychromatic and quasi-monochromatic sources, role of scattering background, etc.
Phase Contrast imaging simulation software based on Geometrical Optics
Phase Contrast imaging simulation software based on Fresnel-Kirchhoff integrals Comparison among Phase Contrast imaging simulation methods and experimental
measurements
Simulation tools
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Simulated image of a tumor-like object (d=1mm) in breast tissue
Absorption image
Phase Contrast image
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Effect of source size and detector PSF
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Cabs
CPh
CPh : Phase Contrast
Cabs : Absorption Contrast
Edge Enhancement Index (EEI)
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Detail diameter: 3 mm, slab thickness 4 cm monochromatic energy 1 keV detector PSF FWHM 100 µm, source size FWHM 13 µm source-object distance 5 m, object detector distance 5 m
Edge enhancement index: EEI>1
Simulated PhC image of tumor-like object in breast tissue
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Phase Contrast Imagingusing standard source
•The Sassari and Pisa group have already performed PCI experiment with standard X-ray source
•Microfocus x-ray tube•Polymer monofilaments (300 μm-2 mm thickness) in air (if possible also in vacuum/helium)
•CMOS detector
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Experimental set-up
microfocus X-ray tube Phantom CMOS detector
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EDGE ENHANCEMENT
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BEATS – PHASE CONTRAST IMAGING
Imaging of a 1 mm PMMA wire in air
Source: • W microfocus x-ray tube • Spot size 10µm• Voltage up to 40 kV
Geometry: • distance soource-object ~0.1m • distance source-detector up to 1.5m
CMOS detector: • pixel size 48µm • PSF (~ 125µm FWHM)
Simulation
Acquired image
profile
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BEATS – PHASE CONTRAST IMAGINGImage propreties
Several geometries (distance source-wire, wire-detector), Voltage (20-40 kVp) and different wire materials (PET, PMMA e Nylon-6) and size (300 μm-2 mm)
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BEATS – PHASE CONTRAST IMAGING
Simulation validation
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Dose reduction•Dose is a limiting factor in all the screening program
•Standard x-ray tube have a wide spectrum
•Non optimal energies increase the dose without improving the image quality
•Given the quasi-monochromatic x-ray spectrum of ICS the dose can be reduced
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Standard X-ray source (Röntgen tube)Required spatial resolution ~100 µm High Flux ~107 γ/(mm2 s).
65 cm
Standard Mammography
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Optimal energy in mammography The best energy for imaging is a compromise between image quality and dose delivered
It depends on the breast size and compositions and on the efficiency of the detector
Tipical values are in the range
17keV - 25keV
M,W. Ragozzino, Med. Phys 9(4), 1982, p. 493
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Energy optimization
•Optimal energy definition
•Study of the dependence of image quality on energy spread
•Evaluation of dose reduction wrt to a standard x-ray tube
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Mean: 20.6 keV , σ: 1.7 keV
SNR at constant Dose (1.5 mGy)
Energy optimization
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Breast and lung CT•Source linear size is one of the limiting factor in the spatial resolution
•PSF ~ d(obj.-det.)/d(source-obj.)*source size
•Some dose reduction advantage as fot standard mammography
•Relatively easy extension of the plane imaging
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Breast and lung CT (2)•Feasibility study on small biological sample
•The same detector used for plane imaging can be used
•The sample will be placed on a step by step rotating stage
•The tomographic reconstruction will be made using algorithms such as filtered back-projection and Fourier reconstruction
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Next step: ICS as sub-psec X-ray probe of ultra-fast physics
• Demands on monochromaticity excessive for approaches like EXAFS• Diffraction, radiography can take advantage of unique aspects of ICS
spectrum and sub-psec time structure
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Example: observation of shock propagation using radiography
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Static diffraction demonstrated
Pb ApertureInSb Wafer/HOPG
Saturated Main Signal
CsI Scintillator
Sn k-edge filter
X-ray energy: 35 keV
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X-ray Diffraction at ATF• Staged approach:
–initially static diffraction, then dynamic, using pump-probe
–Follow PLEIADES example• Use Au sample, high energy ICS γ’s (13 keV)
• Induce melting with CO2 driver –Split from ICS collision pulse–Psec time scale for electron-phonon coupling, phase transition
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Experimental issues• Demands high number of γ’s per pulse
– ATF is ~ best in the business due to CO2 now• Pump-probe timing
– Jitter due to electron time of arrival– Autoscanning of arrival times
• Need relative timing measure– Electro-optic sampling, now done at UCLA Pegasus
(Musumeci)
T. Srinivasan-Rao, et al. Phys. Rev. STAB 5, 042801 (2002)
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Experimental issues• Demands high number of γ’s per pulse
– ATF is ~ best in the business due to CO2 now• Pump-probe timing
– Jitter due to electron time of arrival– Autoscanning of arrival times
• Need relative timing measure– Electro-optic sampling, now done at UCLA Pegasus
(Musumeci)
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Schematic of EOS@Pegasus
55
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Schematic of EOS@Pegasus
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Schematic of EOS@Pegasus
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Conclusions•The agenda outlined is rich with possibilities, and thus represents, given manpower and funding limitations, a two-to-three year program
•6 weeks of run time per year in at least one-week blocks
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Conclusions•BNL ATF laboratory is perfect to accomplish this challenging scientific program
Thank you very much to every one at BNL ATF
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