The AMO Instrument & Science Drivers John Bozek, LCLS
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Transcript of The AMO Instrument & Science Drivers John Bozek, LCLS
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 20081
The AMO Instrument & Science The AMO Instrument & Science DriversDriversJohn Bozek, LCLSJohn Bozek, LCLS
Photon beam parametersPhoton beam parameters
Sample sourceSample source
SpectrometersSpectrometers
DiagnosticsDiagnostics
LaserLaser
LayoutLayout
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 20082
LCLS Soft x-rays: 825 – 2000 eV
Low energy limit is determined by the accelerator design
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 20083
LCLS Soft x-rays: 825 – 2000 eV
15mrad incidence angle, B4C coating:
High energy cut-off by the deflecting optics
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 20084
Unique properties of LCLS radiation
Photon Energy 825 eV 8250 eV
Repetition rate 120 Hz 120 Hz
Photons per pulse 1013 1012
Pulse duration (rms) 137 fs 73 fs
Beam divergence 5.7 μrad 0.8 μrad
1st harmonic bandwidth 0.07% 0.03%
Peak power in 1st harmonic 5 GW 8 GW
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 20085
AMO studies fundamental interactions
Through years of investigation, we have a pretty good idea what happens when we hit an atom with an x-ray?
Consider Ne atoms and ~1keV photons
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 20086
Ne 1s photoabsorption
Y. Saitoh et al, Spring-8 BL25SU web site
http://www.spring8.or.jp/pdf/en/res_fro/98-99/p80-p81.pdf
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200811
Scientific Goals of the AMO instrumentation
Investigate multiphoton and high-field x-ray processes in atoms, molecules and clusters
Multi-photon ionization/excitation in atoms/molecules/clusters
Accessible intensity on verge of high-field regime
Study time-resolved phenomena in atoms, molecules and clusters using ultrafast x-rays
Inner-shell side band experiments
Photoionization of aligned molecules
Temporal evolution of state-prepared systems
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200812
AMO Instrument – Experimental Facilities
Optics
High Field Physics ChamberGas jet
Electron TOFs
Ion spectrometers
X-ray spectrometers
Chamber, shielding, pumping, shutter, etc
Diagnostics ChamberMagnetic bottle electron spectrometer
Beam screens
Pulse energy monitor
Pulse picker
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200814
AMO Instrument Design – focusing optics
Peak intensity depends on size of beam focus – accessible physics depends on intensity
Focus W/cm2
1mm 7×1012
100μm 7×1014
10 μm 7×1016
1 μm 7×1018
100nm 7×1020
Interaction region ~140m from source
Source @ 825 eV - 116m
Divergence @ 825eV - 5.7rad
Unfocussed beam diameter ~1.1mm
Focusing optics ~1m from interaction region
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200815
Focusing Optics – Elliptical Bender
Side shaping required to achieve best shapeLCLS M1 and M2 Ideal Slope error
-2.00E-07
-1.50E-07
-1.00E-07
-5.00E-08
0.00E+00
5.00E-08
-1.50E-01 -1.00E-01 -5.00E-02 0.00E+00 5.00E-02 1.00E-01 1.50E-01
Distance from mirror center [m]
Slo
pe
erro
r [r
ad]
M1 M2
Images courtesy of Alexis Smith & YiDe Chuang, LBNL
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200816
Focusing Optics – Elliptical Bender
Optics can be reshaped for 2nd focus 1m downstream with slight increase in slope error
Images courtesy of YiDe Chuang, LBNL
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200817
Focusing Optics – Surface Coatings
B4C has good reflectivity up to ~ 2000eV and can withstand intense LCLS beam
Also good rejection of higher harmonics~10% reflectivity at 2475eV
Five mirrors between source and sample – 66% transmission at 825 eV & 1∙10-5 transmission at 2475
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200818
Focusing Optics – Surface Coatings
Regina Soufli @ LLNL has been working on methodology to achieve smooth B4C coatings – slower depositionIncreased surface stress, however, which may result in delamination
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200819
Focusing Optics – Surface Coatings
Compromise position at 10mTorr sputter pressure 5-7Å roughness but much lower stress in film
Roughness of ~10Å does not appreciably decrease reflectivity at 2000eV
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200820
Focusing Optics – Mechanical Design
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200821
Experimental station - Gas jet
Pulsed valve – type described by Proch & Trickl, Rev. Sci. Instrum. 60, 713 (1989)
Piezo disk translator
Valve plunger
Gas supply
Electrical feed through
O ring
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200822
Experimental station - Gas jet
Pulsed valve assembly
Pulsed valve
Gas supply
Electrical feed through
XYZ stages
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200823
Experimental station – Pulsed Gas Jet
Gas jet chamber
X ray beam
Turbo pump
Skimmer
Interaction region
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200824
Experimental station - Gas jet
Intermediate chambers
Turbo pumps
Gas jet chamber
X ray beam
Interaction region
Multiple skimmers configuration
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200825
High Field Physics – Ion Spectrometers
Three different types of Ion SpectrometerTime-of-flight spectrometer – using integrating metallic anode
Wiley & McLaren, Rev. Sci. Instrum., 26, 1150 (1955).
Velocity map imaging spectrometer – using a phosphor screen to image impact location of ions
Eppink & Parker, Rev. Sci. Instrum., 68, 3477 (1997).
Momentum resolving spectrometer – using a delay line anode to measure position and time of ion impact
Dörner et al., Phys. Rep. 330, 95 (2000).
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200826
High Field Physics – Ion Spectrometers
Ion spectrometers are interchangeable via common sized flange
Similar schemes for mounting lenses/meshes & flight tube
Only integrating ion spectrometer will be used in first year
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200827
Experimentation station – Ion TOF
Magnetic shield
Repeller grid
Extractor grid
Acceleration grid
Interaction region
Flight tube
Detector 12” flange
Three different ion detectors/spectrometers:
m/q spectrometer
VMI
Momentum resolving
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200828
High Field Physics – Electron Time-of-Flight
Five spectrometers arranged around interaction region at following angles:
θ φ comment
1 0º 90º Along y-axis
2 35.3º 90º Magic angle in xy dipole plane
3 90º 90º Along x-axis
4 54.7º 0º Non-dipole
5 90º 35.3º Non-dipole
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200829
High Field Physics – eTOF
Based on a successful design used by D. Lindle’s group at ALS – designed for up to 5keV electrons
Relatively flat transmission above 20eV KE
Figures from O. Hemmers et al., Rev. Sci. Instr., 69, 3809 (1998)
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200830
Experimentation station - ETOF
Aperture 1- 0V
Aperture 2 – 2V
Detector
Lens 4 + Flight tube- -5000V
Lens 1 - -4000VGround tube 0V
Lens 2 - -4575V
Lens 3 - -4850V
IR
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200831
Experimentation station - ETOF
Detector
Electrical lens
Magnetic shielding
Actuators
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200832
Experimentation station - ETOF
Turbo pump
Electrical lens
Magnetic shielding
Actuators
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200833
High Field Physics – eTOFFive electron spectrometers arrayed around interaction region
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200834
Mu metal liningLinked to each spectrometer
Allow pumping
Continuous permeability
Experimental station - Magnetic shielding
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200835
Experimental station – Chamber X-Section
Ion TOF
eTOF
Gas jet port
Interaction region
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200836
High Field Physics – X-ray spectrometers
Two of the electron spectrometers can be removed & replaced with x-ray emission spectrometers
Spectrometers require high efficiency for diffuse gaseous targets
Single shot capable detectors – either CCD’s/CMOS detectors directly or MCP amplified phosphor screen imaged with camera external to vacuum
Two spectrometers – a grating spectrometer for <2 keV and crystal spectrometer for >2 keV
Design not yet complete
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200837
High Field Physics – X-ray spectrometers
With guidance from plasma physics and EBIT measurements – concave elliptical crystal spectrometer
Crystals formed by bending them onto a mandrel
Energy ranges for crystals that are easily bent:
Crystal d (Å) Energy range for 45° ≤2≤135° (eV)
KAP 26.64 1216 504
PET 8.742 3706 1535
LiF 4.027 8045 4354
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200838
High Field Physics – X-ray spectrometers
Geometry described by Henke et al., Rev. Sci. Intr., 54, 1311 (1983).
With h = 25mm & R0 = 600mm
1 cos
h
2
0 0
1h h
R R
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200839
Positioning table
Load capacity: 1000Kg
Ranges of motion: All 6 degrees ±50mm in XYZ ±5º in Pitch, Yaw, Roll Repeatability ±1µ
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200840
Positioning table
Moving frameMotorized stages XY
Slave stages XYSpherical bearing
joints
Anchored frame
Motorized stages Z
3 x Spherical head feet
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200841
AMO Instrument - Diagnostics
Diagnostics in a separate chamber with:Magnetic bottle spectrometer
Measures photon wavelength and bandwidth
Can also be used to measure temporal overlap of FEL & laser beam
Total pulse energy monitorMeasures pulse energy on each pulse
Two beam screensMeasures position & size of beam
Either geometric or coherent interference based
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200842
Diagnostics – Magnetic Bottle
Magnetic field directs electrons to detector increasing collection efficiency
As first described by Kruit & Read, J. Phys. E, 16, 313 (1983)
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200843
Diagnostics – Magnetic BottleSingle shot electron energy spectrum – measure photon energy and bandwidth
Design courtesy of Chris Roedig (Lou DiMauro’s group at OSU).
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200845
Diagnostics – Beam Viewing ScreensTwo screens separated by ~ 1m to measure beam trajectory & divergence
1st screen partially transparent – 500m of YAG on SiN membrane imaged with CCD (120Hz)
Second screen can extinguish beam using a thick YAG crystal
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200846
Total Energy (Thermal) Sensor provides calibrated measurement of FEL pulse energy
ThermistorsNd0.66Sr0.33MnO3
(On back of substrate)
FEL pulse
Cu heat sink
0.5 mm Si substrate
Measures FEL energy deposition through temperature rise
t = 0t = 0.1 ms t = 0.25 ms
Thermal diffusion of FEL energy
Sensor Temperature Rise
0
1
2
3
4
5
0 0.05 0.1 0.15 0.2 0.25 0.3
Time [ms]
Tc200Tc150Tc100
[K]
VG from R. Bionta
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200847
Diagnostics chamber – downstream
Beam viewing screen
Magnetic bottle magnet
XYZ stage
Differential pumping
Magnetic bottle
Power monitor
Beam profile monitor
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200848
Beam Shutter
Upstream of the optics a single pulse beam shutter will be installed in the beamline
The shutter is a commercial product that will be modified with coatings to protect the shutter blade
<2ms open/close time
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200849
NEH Laser System and Optical Transport
Hutch 1Hutch 2Hutch 3
Laser Hall
49
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 20085050
Laser Conceptual Design
Topaz OPA
Harmonics
Pulse Compressor (Single Grating)
Optical Transport
Multi-Pass Preamplifier
10-30 Hz, <30 mJ
300 mJ Nd:YAG Pump Laser @ 532nm 10-30 Hz
Pulse Cleaner
Regenerative Amplifier
1kHz, <5 mJ
20W Nd:YLF Pump Laser @ 527nm 1.2 kHz
Dazzler30 fs Ti:sapphire Oscillator 800 nm
5 W Nd:YVO4
Pulse Stretcher
30 fs Bandwidth
120mJ Nd:YAG Pump Laser @ 532nm, 120 Hz
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200851
NEH Laser
Experiment Chambers
Optical TransportHarmonics
Pulse Compressor (Single Grating)
Optical Transport
Optical Transport
Pulse Cleaner
Regenerative Amplifier
1kHz, <5 mJ
30W Nd:YLF Pump Laser @ 527nm 1.2 kHz
30 fs Mode Locked Ti:sapp @ 800 nm
5 W Nd:YVO4
Pulse Stretcher
30 fs Bandwidth
Laser Hall
Hutch 2
DIAGNOSTIC SUITE
-Spectrometer
-Autocorrelator
-Frog
-Beam Analyzer
-Power Meters
-Oscilloscopes
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200852
Laser Hall Laser Tables
52
3X, Optical Transport Tubes
Master Oscillator
Regen Amplifier15’
5’
12’ 26’
Laser Hall
Entry
EquipmentRacks
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200853
NEH (AMO) Laser Configuration120 Hz, 2-3mJ Ti:Sapphire
Oscillator & regen upstairs in laser lab
Vacuum beam transport to hutch
Compressor, color conversion in hutch
Two arms – one to experiment, other to diagnostics
by Greg Hays
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200854
Introducing Laser into AMO ChamberLaser introduced on-axis using mirror with hole
All focusing/steering outside vacuum
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200855
Introducing Laser into AMO Chamber
Laser beam diam. ~20-60 um at interaction region
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200856
AMO Focused Beam Parameters and Peak Intensities
56
1.0 cm Diameter 2.0 cm Diameter
35 cm Focal
Length
Focal Spot Size 43 m
21.4 m
Peak Intensity 4x1015 W/cm2 2x1016 W/cm2
50 cm Focal
Length
Focal Spot Size
61.1 m 30.6 m
Peak Intensity
2x1015 W/cm2 8x1015 W/cm2
Calculations Assume:
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200857
Photoelectron sidebands – an example
Above threshold Ionization processes giving rise to sidebands
Requires spatial and temporal overlap of two beams
Image from FLASH web site
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200858
Sidebands – measurements at FLASH
First experiments at FLASH used a psec laserModeling with time-dependent Schroedinger eqn required to extract temporal overlap from SB intensity
M. Meyer et al., Phys. Rev. A 74, 011401(R) (2006)
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200859
Diagnostic - Temporal ResolutionUsing fsec optical laser able to reduce temporal uncertainty to 50 fs
Measured relative jitter between two beams of 250 fs rms using Xe 5p photoionization
P. Radcliffe et al, APL, 90, 131108, 2007.
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200860
Controls & Data Acquisition
EPICS will be used to control instrumentation
All motions, voltages, etc. under remote controlTest-stands already being built
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200861
Controls & Data Acquisition
Acqiris DC282 high-speed 10-bit cPCI Digitizer4 channels2-8 GS/s sampling rateAcquisition memory from 1024 kpoints to 1024 Mpoints (optional)Low dead time (350 ns) sequential recording with time stamps6U PXI/CompactPCI standard, 64 bit, 66 MHz PCI bus
Sustained transfer rate up to 400MB/s to host SBC
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200862
Layout of AMO experiment
Design currently being finallized…completion in June
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200866
What’s there July 2009?
Focusing OpticsHigh Field Physics Chamber
Pulsed gas jetIon TOF (Wiley McLaren type)Electron TOFs
DiagnosticsEffusive gas jetMagnetic bottle TOFBeam screens
Synchronized Laser
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200867
And what’s commissioned later ?
Pulse picker (12/09)
High Field Physics ChamberVelocity map imaging ion spectrometer (10/09)
Momentum resolving ion spectrometer (reaction microscope/ColTRIMS) (2/10)
X-ray spectrometers (1/10)
DiagnosticsPulse energy monitor (11/09)
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John Bozek
AMO Proposal Workshop [email protected]
June 2-3, 200868
The Path Forward
Preliminary Design Review CompletedPreliminary Design Review CompletedFinish detailing high field physics chamber, diagnosticsFinish detailing high field physics chamber, diagnostics
Finalize Design & Review – June 08Finalize Design & Review – June 08
Procurement phase – Jul-Dec 08Procurement phase – Jul-Dec 08
Assembly & Testing – Jan-Jun 09Assembly & Testing – Jan-Jun 09
Ready for first light – July 09Ready for first light – July 09
Lots of help from engineering, controls, etc.Lots of help from engineering, controls, etc.