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Seminar on Plasma Focus Experiments SPFE2010. Use of current measurements to interpret plasma focus properties and mechanisms S Lee, S H Saw INTI International University, Nilai , Malaysia Institute for Plasma Focus Studies, Melbourne, Malaysia, Singapore - PowerPoint PPT Presentation
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Seminar on Plasma Focus Experiments Seminar on Plasma Focus Experiments SPFE2010SPFE2010
Use of current measurements to interpret Use of current measurements to interpret plasma focus properties and mechanismsplasma focus properties and mechanisms
S Lee, S H SawS Lee, S H SawINTI International University, Nilai, MalaysiaINTI International University, Nilai, Malaysia
Institute for Plasma Focus Studies, Melbourne, Malaysia, SingaporeInstitute for Plasma Focus Studies, Melbourne, Malaysia, Singapore
Nanyang Technological University, NIE, SingaporeNanyang Technological University, NIE, Singapore
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
OutlineOutline
The Lee model code and its contributions to The Lee model code and its contributions to landmark plasma focus understandinglandmark plasma focus understanding
Use of the code to reference diagnosticsUse of the code to reference diagnostics Current waveforms show necessity to classify Current waveforms show necessity to classify
PF’s into T1 and T2PF’s into T1 and T2 T2 shows necessity to model 6T2 shows necessity to model 6 thth phase ie Phase phase ie Phase
4a4a Product of this fitting is the magnitude and Product of this fitting is the magnitude and
temporal form of anomalous resistance.temporal form of anomalous resistance.
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Insights 1/3Insights 1/3
The Lee model code has produced The Lee model code has produced ground-breaking insights no other ground-breaking insights no other plasma focus codes has been able to plasma focus codes has been able to produceproduce
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
For Example: Ground-breaking For Example: Ground-breaking Insights published 2/3Insights published 2/3
Limitation to Pinch Current and Yields-Limitation to Pinch Current and Yields- Appl Phys Letts. 92 Appl Phys Letts. 92 (2008) S Lee & S H Saw: (2008) S Lee & S H Saw: an unexpected, important resultan unexpected, important result
Neutron Yield Scaling-sub kJ to 1 MJNeutron Yield Scaling-sub kJ to 1 MJ--J Fusion Energy 27 (2008) J Fusion Energy 27 (2008)
S Lee & S H Saw- S Lee & S H Saw- multi-MJmulti-MJ- - PPCF 50 (2008) S LeePPCF 50 (2008) S Lee
Neon Soft x-ray Scaling-Neon Soft x-ray Scaling- PPCF 51 (2009) S Lee, S H Saw, P Lee, R S PPCF 51 (2009) S Lee, S H Saw, P Lee, R S RawatRawat
Neutron Yield Saturation- Neutron Yield Saturation- Appl Phys Letts. 95 (2009) S LeeAppl Phys Letts. 95 (2009) S Lee simple explanation of major obstruction to progress for a generationsimple explanation of major obstruction to progress for a generation
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Others papers we published using the Others papers we published using the Lee model code numerical experiments Lee model code numerical experiments
3/33/3Techniques: of Pinch current from total Techniques: of Pinch current from total
current measurements, in-situ current measurements, in-situ determination of bank parameters determination of bank parameters
(2 papers 2008, 2010) ; (2 papers 2008, 2010) ;
numerical experiments applied to numerical experiments applied to specific machines (3 papers 2009); specific machines (3 papers 2009);
soft x-rays from nitrogen and oxygen soft x-rays from nitrogen and oxygen
(4 papers with Syrian AEC 2009, 2010)(4 papers with Syrian AEC 2009, 2010)
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
The 5-phase Lee Model code 1/4The 5-phase Lee Model code 1/4
Includes electrodynamical- and radiation- Includes electrodynamical- and radiation- coupled equations to portray the REGULAR coupled equations to portray the REGULAR mechanisms of the axial (phase 1), radial mechanisms of the axial (phase 1), radial inward shock (phase 2), radial RS (phase 3), inward shock (phase 2), radial RS (phase 3), slow compression radiation phase (phase 4) & slow compression radiation phase (phase 4) & the expanded axial post-pinch phase (phase 5)the expanded axial post-pinch phase (phase 5)
Relates to physical reality through a measured Relates to physical reality through a measured current tracecurrent trace
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Given any plasma focus machine: e.g. Given any plasma focus machine: e.g. PF1000 (biggest PF in the world) 2/4PF1000 (biggest PF in the world) 2/4
Bank parameters: LBank parameters: L00=33nH; C=33nH; C00=1332uF; r=1332uF; r00=6 m=6 m Tube parameters: b=16 cm, a=11.55 cm, zTube parameters: b=16 cm, a=11.55 cm, z00=60cm=60cm Operation parameters: VOperation parameters: V00=27kV, P=27kV, P00=3.5 Torr in D2=3.5 Torr in D2
The UPFLF (Lee code) is configuredThe UPFLF (Lee code) is configured (by keying figures into the (by keying figures into the configuration panel on the EXCEL sheet) as the PF1000configuration panel on the EXCEL sheet) as the PF1000
Output of codeOutput of code: PF1000 current waveform: PF1000 current waveform
PF1000 dynamics & electrodynamicsPF1000 dynamics & electrodynamics
PF1000 plasma pinch dimensions & characteristicsPF1000 plasma pinch dimensions & characteristics
PF1000 neutron & Radiation yieldsPF1000 neutron & Radiation yields
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
1997 ICDMP 1997 ICDMP (International Centre for Dense Magnetised (International Centre for Dense Magnetised
Plasmas)Plasmas) established in Warsaw-now operates one established in Warsaw-now operates one of biggest plasma focus in the world, the PF1000of biggest plasma focus in the world, the PF1000
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Connection of model with Reality is by means of Connection of model with Reality is by means of a measured current waveform 3/4a measured current waveform 3/4
The computed current waveform is fitted to the measured current The computed current waveform is fitted to the measured current
waveform by adjusting 4 physical parameters:waveform by adjusting 4 physical parameters: ffmm && f fcc: mass swept up & current factor; axial phase: mass swept up & current factor; axial phase
ffmrmr && f fcrcr: : mass swept up & current factorsmass swept up & current factors: radial phase: radial phase
5-point fit: rising slope, topping profile, peak value, slope of dip, depth of dip
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Once fitted: model is energy-wise & mass-wise Once fitted: model is energy-wise & mass-wise & equivalent to the physical situation 4/4& equivalent to the physical situation 4/4
All dynamics, electrodynamics, radiation, All dynamics, electrodynamics, radiation, plasma properties and neutron yields are plasma properties and neutron yields are realistically simulated; so that the code output realistically simulated; so that the code output of these quantities may be used as reference of these quantities may be used as reference points for diagnosticspoints for diagnostics
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Diagnostics-Time histories of dynamics, energies and Diagnostics-Time histories of dynamics, energies and plasma properties computed by the codeplasma properties computed by the code
Last adjustment, when the computed Last adjustment, when the computed IItotaltotal trace is judged to be reasonably well fitted in all 5 features, computed times trace is judged to be reasonably well fitted in all 5 features, computed times histories are presented (NX2 operated at 11 kV, 2.6 Torr neon)histories are presented (NX2 operated at 11 kV, 2.6 Torr neon)
Computed Itotal waveform fitted to measuredComputed Itotal waveform fitted to measured
Computed Tube voltageComputed Tube voltage
Computed Itotal & IplasmaComputed Itotal & Iplasma
Computed axial trajectory & speedComputed axial trajectory & speed
Input: Measured Total Current; shown with fitted computed total current
0
50
100
150
200
250
300
350
400
0 0.5 1 1.5 2 2.5Time in microsec
Cu
rren
t in
kA
Measured currentkAComputed currentkA
end of radial phase
Computed Tube Voltage
-5
0
5
10
15
20
25
0.0 0.5 1.0 1.5 2.0 2.5
Time in microsec
Vo
ltag
e in
kV Breech Voltage kV
Computed Total Current & Plasma Current
0
50
100
150
200
250
300
350
400
0.0 0.5 1.0 1.5 2.0 2.5
Time in microsec
Cu
rren
t in
kA
Total Current kA
Plasma Current
Computed Axial Trajectory & Speed
0
2
4
6
8
10
12
0.0 0.5 1.0 1.5 2.0 2.5Time in microsec
Pos
ition
in c
m,
S
peed
in c
m/u
sec
Axial positionAxial Speed
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Computed tube Inductance (axial + radial)
0
5
10
15
20
25
30
0.0 0.5 1.0 1.5 2.0 2.5Time in microsec
Ind
uct
ance
in n
H
Plasma Inductance
Computed total inductive energy as % of stored energy
010
2030
4050
6070
80
0.0 0.5 1.0 1.5 2.0 2.5Time in microsec
% o
f st
ore
d e
ner
gy
Inductive energy
Compare energy dissipated by 'dynamic resistance' with piston work
0
5
10
15
20
25
30
35
0.0 0.5 1.0 1.5 2.0 2.5Time in microsec
% o
f st
ore
d e
ner
gy
energy dissipated by 0.5LdotPiston Work
Dynamic Resistance in mOhm
0.0
20.0
40.0
60.0
80.0
100.0
120.0
0.0 0.5 1.0 1.5 2.0 2.5Time in microsec
DR
in m
Ohm
DR in mOhm
Computed Radial trajectory, Shock & Reflected Shock
-5
0
5
10
15
20
0.0 0.5 1.0 1.5 2.0 2.5
Time in microsec
Ra
dia
l po
sit
ion
in m
m
Radial Inward Shock
Radial Piston
Radial Reflected Shock
Computed Length of Radial Structure
0
5
10
15
20
25
30
0.0 0.5 1.0 1.5 2.0 2.5
Time in microsec
Leng
th in
mm
Length of Radial Structure
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Computed Radial speeds, Shock, Reflected Shock & elongation
-30
-20
-10
0
10
20
30
0 1 1 2 2 3
Time in microsec
Sp
eed
s in
cm
/use
c
Radial Inw ard Shock
Radial Piston
Elongation Speed
Computed averaged and peak plasma temperature
0.0
1.0
2.0
3.0
0.0 0.5 1.0 1.5 2.0 2.5Time in microsec
Tem
p (
106
K)
Averaged uniform T
Peak (temporal & spatial) T
Computed averaged & peak ion number density
0
5
10
15
20
25
30
0.0 0.5 1.0 1.5 2.0 2.5Time in microsec
nu
mb
er d
en
sit
y 1
023
m-3
Averaged uniform ni
nimax, full shock jump
Computed SXR Power in GW
0.0
1.0
2.0
3.0
0.0 0.5 1.0 1.5 2.0 2.5Time in microsec
SX
R P
ower
in G
W
SXR emission power
piston
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
All well-published PF machines are well-fittedAll well-published PF machines are well-fitted: see : see following examples and many others; following examples and many others;
note: note: the fit for the axial phase, and for the radial phasethe fit for the axial phase, and for the radial phase 1/4 1/4
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
ExceptExcept one 2/4 one 2/4 UNU ICTP PFF- famed low-cost sharing network; UNU ICTP PFF- famed low-cost sharing network;
current signal noisy and dip is small; difficult to current signal noisy and dip is small; difficult to judge the fitting-suspected ill-fitjudge the fitting-suspected ill-fit
Low cost- necessitates single capacitor- hence high Low cost- necessitates single capacitor- hence high inductance Linductance L00
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Recently KSU commissioned a machine; a Recently KSU commissioned a machine; a modernised version of the UNU ICTP PFF 3/4modernised version of the UNU ICTP PFF 3/4
A good Rogowski system was developed to measure A good Rogowski system was developed to measure dI/dt; which was then numerically integrated resulting in a dI/dt; which was then numerically integrated resulting in a clean current signal-clean current signal-Best fit nowhere near the fit of the well-published machines- in fact Best fit nowhere near the fit of the well-published machines- in fact clearly could only fit a small portion of the radial phaseclearly could only fit a small portion of the radial phase
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
A study followed; resulting in classifying plasma A study followed; resulting in classifying plasma focus devices into T1 & T2 4/4focus devices into T1 & T2 4/4
Differentiator: L0
Better Differentiators: RL=(L0 +La)/Lp
REL=(EL0+ELa)/ELPinch
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Physical explanation 1/2Physical explanation 1/2
RD mechanism for pinch purely compressiveRD mechanism for pinch purely compressive At end of RD (call this REGULAR DIP), expts At end of RD (call this REGULAR DIP), expts
show other effects eg instabilities leading to show other effects eg instabilities leading to anomalous resistance- these mechanisms not anomalous resistance- these mechanisms not modelled by 5-phase Lee codemodelled by 5-phase Lee code
These anomalous resistive effects will absorb These anomalous resistive effects will absorb further energy from pinch; will result in further further energy from pinch; will result in further current dips- called EXTENDED DIP, EDcurrent dips- called EXTENDED DIP, ED
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Our studies further concluded 2/2Our studies further concluded 2/2
T1: Small LT1: Small L00 lead to big RD and relatively small EDlead to big RD and relatively small ED
T2: Big LT2: Big L00 lead to small RD and relatively big ED lead to small RD and relatively big ED
This explains why the 5-phase model: This explains why the 5-phase model:
For T1: the model parameters can be stretched for the For T1: the model parameters can be stretched for the RD to ‘absorb’ the EDRD to ‘absorb’ the ED
For T2: the model parameters, stretch how one likes, the For T2: the model parameters, stretch how one likes, the RD cannot ‘absorb’ the EDRD cannot ‘absorb’ the ED
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Need to develop 6Need to develop 6thth phase ie Phase phase ie Phase 4a 1/24a 1/2
We have simulated using anomalous We have simulated using anomalous resistance of following form:resistance of following form:
Where RWhere R00 is of order of 1 Ohm, t is of order of 1 Ohm, t11 controls controls rise time of the anomalous resistance rise time of the anomalous resistance and tand t22 controls the fall time (rate) controls the fall time (rate)
Use one term to fit one feature; terminate the Use one term to fit one feature; terminate the termterm
Then use a 2nd term to fit a 2Then use a 2nd term to fit a 2ndnd feature and so feature and so onon
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Simulated Anomalous Resistance Term 2/2Simulated Anomalous Resistance Term 2/2
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Result of Phase 4a fitting applied to Result of Phase 4a fitting applied to KSU Current Trace 1/3KSU Current Trace 1/3
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Result of Phase 4a fitting applied to Result of Phase 4a fitting applied to KSU Current Trace 2/3KSU Current Trace 2/3
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
Features 3/3Features 3/3 Current ED now fitted very wellCurrent ED now fitted very well Fig also shows the form of the fitted anomalous resistance Fig also shows the form of the fitted anomalous resistance
(3 terms)(3 terms) Figure shows that the computed tube voltage waveform Figure shows that the computed tube voltage waveform
also shows features in agreement with the measured tube also shows features in agreement with the measured tube voltage waveformvoltage waveform
The product of this Phase 4a fitting is the magnitude and The product of this Phase 4a fitting is the magnitude and temporal form of the anomalous resistance. This is an temporal form of the anomalous resistance. This is an important experimental result. The information is useful to important experimental result. The information is useful to elaborate further on the instability mechanisms. elaborate further on the instability mechanisms.
Moreover even for the T1 current waveforms, we should Moreover even for the T1 current waveforms, we should fit by first just fitting the RD using the 5-phase model; ie fit by first just fitting the RD using the 5-phase model; ie the part that fits well with the computed is the RD; the rest the part that fits well with the computed is the RD; the rest of the dip is then fitted using phase 4a.of the dip is then fitted using phase 4a.
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
UNU ICTP PFF (INTI) 6-Phase Fit
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
ConclusionConclusionIn this paper we have discussed:In this paper we have discussed:
The Lee model code and its contributions The Lee model code and its contributions to landmark plasma focus understandingto landmark plasma focus understanding
Use of the code to reference diagnosticsUse of the code to reference diagnostics Current waveforms show necessity to Current waveforms show necessity to
classify PF’s into T1 and T2classify PF’s into T1 and T2 T2 shows necessity to model 6T2 shows necessity to model 6thth phase ie phase ie
Phase 4aPhase 4a Product of this fitting is the magnitude and Product of this fitting is the magnitude and
temporal form of anomalous resistance.temporal form of anomalous resistance.
Seminar on Plasma Focus Experiments(SPFE 2010) – Use of current measurements to interpret plasma focus properties and mechanisms S Lee & SH Saw
27 August 2010
A Paper has been submitted:A Paper has been submitted:
Use of current measurements to interpret plasma Use of current measurements to interpret plasma focus properties and mechanismsfocus properties and mechanisms
S Lee, S H SawS Lee, S H SawINTI International University, Nilai, MalaysiaINTI International University, Nilai, Malaysia
Institute for Plasma Focus Studies, Melbourne, Malaysia, SingaporeInstitute for Plasma Focus Studies, Melbourne, Malaysia, Singapore
Nanyang Technological University, NIE, SingaporeNanyang Technological University, NIE, Singapore
Remembering Abdus Salam-Thank You