title page · final optics. 2w and 3w beamline energies. 19 1.8 mj nic ignition point design,...
TRANSCRIPT
Title Page
UCRL-PRES-225531
National ignition facility
NIF is 705,000
NIF laser system
NIF us 885
NIF-0506-11956
Laser bay 2
Switchyard 2
Target chamber in the air
Target chamber
Target chamber national geographic
Target chamber inside
Warehouse of laser glass
13
Glass Slabs LRU
Power Amplifiier flashlamp
Design glass for 1w energy and power
Completed 2 bundles of 8 beams
Final optics
2w and 3w beamline energies
19
1.8 MJ NIC ignition point design, energy, power, pulseshape & beam smoothing were achieved simultaneously
The first LPI experiments on NIF havedemonstrated
21
1 MJ shaping results: Comparison of requestedvs measured 3 pulse shape (N060302-001-999)
RequestedMeasured
00
150
200
100
50
2 4 6 8 10 12 14
3
0 5 10 15 20Time (ns)
Po
we
r (T
W)
0
150
200
100
50
Po
we
r (C
W)
2000
1500
1000
500
050 10 15
5 10 15 200
0
Po
we
r (T
W)
150
200
100
50
Po
we
r (C
W)
RequestedMeasured
Requested 2ns aveMeasured 2ns ave
Requested 2ns aveMeasured 2ns ave
3
Time (ns)
22
0.0
0.5
1.0
1.5
2.0
-2 0 2 4 6 8 10 12 14
La
se
r P
ow
er
(TW
)
Measurements demonstrate that
required adjustments are achievable
• Minimum timing adjustment: ± 50 ps
• Minimum amplitude adjustment: ± 3%
Shock timing and amplitude will be
adjusted for implosion efficiency
1st shock
2nd shock
3rd shock
Point Design pulse
Outer cone
Time (ns)
This level of capability is unique to NIF
NIC ignition mission requires preciseadjustment of features in the laser pulse
2
4
6
8
10
12
Po
we
r (m
W)
2
4
6
8
10
12
7.5 8.0 8.5 9.0
Time (ns)
Po
we
r (m
W)
Ten MOR pulse average
100ps ± 10ps
50ps ± 10ps
300ps ± 30ps
3% ± 1%
5% ± 1%
10% ± 1%
± denotes RMS errors
Timing Shifts
Amplitude Shifts
Ignition plan has distinct diagnosticsrequirements
Nif is steadily developing a large range ofexperimental capabilities
NIF Master Strategy
Over the past year we have stood up theNational Ingition Campaign
National ignition Campaign 2006
Major elements of the NIC
31
NIF Indirect Drive target point design
MOVIE: Fill tube
Low-Yield diagnostics
NIC High yield diagnostics
35
NIF/NIC Integration Schedule
36
NIF/NIC Integration Schedule
30 Months Until TheBeginning of
Ignition Experimentson NIF
37
High-energy high-intensity missions define thelaser requirements
38
Conceptual full scale proton fast ignition mustsatisfy many criteria - design is evolving
39
High energy petawatts require beamlinemodification
40
The petawatt beam in the target bay will beeasily switched from the long-pulse beam path
41
NIF could be adapted for full scale high gain FI
42
Omega EP will support both FI science (EPchamber)
World-wide international HEDS Lasers
44
45
47
48
49
52