![Page 1: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/1.jpg)
P.H. Diamond
WCI Center for Fusion Theory, NFRI, KoreaCMTFO and CASS, UCSD, USA
2014 APTWG
Cross Phase Evolution and Its Role in ELM Bursts
![Page 2: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/2.jpg)
2
• Pengwei Xi – PKU, LLNL
X.-Q. Xu – LLNL
See: P.W. Xi, Xu, P.D. – PRL, PoP 2014
• Related work:
T. Rhee – NFRI
J.M. Kwon – NFRI
W.W. Xiao - UCSD, NFRI, SWIP
See: T. Rhee, et. al. PoP 2012
Collaborators
![Page 3: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/3.jpg)
3
• Xiao-Lan Zou, R. Singh, Todd Evans, Rajesh Mainji,
Sang-Hee Hahn, Michael Leconte, Guilhem Dif-
Pradalier
Acknowledgements
![Page 4: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/4.jpg)
4
• Not a professional ELM-ologist
• Perspective is theoretical, and focus is on issues in
understanding dynamics
• Perspective is that of a transport theorist
• Aim is to distill elements critical to model building
• Unresolved issues are discussed
Caveat Emptor
![Page 5: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/5.jpg)
5
Outline
• ELMs
– Conventional wisdom: A Quick Look
– Some physics questions
• Recent Progress:
– cross phase coherence and the origin of bursts
– phase coherence as leverage for ELM mitigation
– a deeper – but incomplete – look at phase dynamics
• Conclusions and Discussion
![Page 6: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/6.jpg)
6
• ELMs are ~ quasi-periodic relaxation events occurring at edge
pedestal in H-mode plasma
• ELMs– Limit edge pedestal –
– Expel impurities +
– Damage PFC –
• ELMs à a serious concern for ITER
– ΔW ~20%W ~20MJ– /~10 × limit for damage
– ~200
Terra Firma: Conventional Wisdom of ELMs
![Page 7: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/7.jpg)
7
Terra Firma: Conventional Wisdom of ELMs
• ELM Types– I, II: ↑ as ↑, greatest concern, related to
ideal stability
– III: ↓ as ↑, closer to , unknown à
resistive ??
• Physics– Type I, II ELM onset à ideal stability limit
– i.e. peeling + ballooning
Peeling+
ballooning
Edge kink
Curvature vs bendingmode
+
Pedestal, geometry
![Page 8: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/8.jpg)
8
• Some relation of ELM character to
collisionality is observed
– Low collisionality à peeling ~ “more
conductive”
– High collisionality à ballooning ~ “more
convective”
• Many basic features of ELMs consistent
with ideal MHD peeling-ballooning theory
• Pedestal perturbation structure resembles
P-B eigen-function structure (?!)
Terra Firma: Conventional Wisdom of ELMs
![Page 9: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/9.jpg)
9
Some Physics Questions• What IS the ELM? Why is the ELM?
– ELMs single helicity or multi-helicity phenomena?
Relaxation event ↔ pedestal avalanche?, turbulence spreading?
– How and why do actual bursts occur?
Why doesn’t turbulence force ~ oscillations?
– Pedestal turbulence develops during ELM. Thus, how do P-B modes
interact with turbulence? – either ambient or as part of MH
interaction?
– Does, or even should, the linear instability boundary define the actual
ELM threshold?
![Page 10: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/10.jpg)
10
I) Basic Notions of ELMs:
ELM Bursts and Thresholds as
Consequence of Stochastic Phase Dynamics
![Page 11: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/11.jpg)
0||2
||||0||||0||0||||||||00 /~ ,~ ,1 , , , ,1 ,// mddffff AJJJJA
BBfBf
Btdtd TTETET ^-Ñ=+=´Ñ=Ñ×+¶=¶¶=Ñ+=Ñ´=Ñ×+¶¶= bbbbVV
÷÷ø
öççè
æÑ+Ñ=
Ñ-Ñ=¶+¶¶
=Ñ×+
¶+Ñ×´+Ñ=
^^
^^
ii
HT
E
i
PenB
nm
AAtA
PdtPd
PJBdtd
~1
0~
~2
2
0
20
||4
0||
2
0||
||
0
2||||,0||||
fv
mh
mhf
vmv
V
κb
11X (m)
Z (m)
Simulation model and equilibrium in BOUT++l 3-field model for nonlinear ELM
simulationsü Including essential physics for the
onset of ELMsPeeling-ballooning instabilityResistivity Hyper-resistivityIon diamagnetic effect
hyper resistivity
![Page 12: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/12.jpg)
12
Contrast of perturbation evolution (1/5 of the torus)
Linear phase Early nonlinear phase Late nonlinear phasel Single mode: Filamentary structure is generated by linear instability;l Multiple modes: Linear mode structure is disrupted by nonlinear mode interaction
and no filamentary structure appears
Single Mode
Multiple Mode
/
Filaments
![Page 13: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/13.jpg)
13
Single mode: ELM crash || Multiple modes: P-B turbulence
òò -
=D
=D0
3
03 )(
Pdx
PPdx
WW
ped
pedELM
z
l ELM size larger for SMS
l SMS has longer duration linear phase than MMS
Nonlinear Mode excitation
SMS MMS
(C)
(d)
![Page 14: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/14.jpg)
Relative Phase (Cross Phase) Dynamics
and Peeling-Ballooning Amplification
![Page 15: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/15.jpg)
15
Peeling-Ballooning Perturbation Amplification is set by Coherence of Cross-Phase
i.e. schematic P.B. energy equation:
= 2 × ⋅ +∑ , , − ∑ , - dissipation
~ à energy release from ⟨⟩nonlinear mode-modecoupling
NL effects- energy couplings to transfer energy (weak)- response scattering to de-correlate , è regulate drive
à quadratic
à quartic
![Page 16: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/16.jpg)
16
Growth Regulated by Phase Scattering
Critical element: relative phase = [̂/] à ⟨⟩ à net growth à intensity field à crash?
transfer à dissipation (weak)phase scattering
à phase coherence time
Phase coherence time sets growth
![Page 17: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/17.jpg)
17
Cross Phase Exhibits Rapid Variation in Multi-Mode Case
• Single mode case à
coherent phase set by
linear growth à rapid
growth to ‘burst’
• Multi-mode case à
phase de-correlated by
mode-mode scattering
à slow growth to
turbulent state
![Page 18: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/18.jpg)
18
Key Quantity: Phase Correlation Time• Ala’ resonance broadening (Dupree ‘66):
+ ⋅ + ⋅ − = −
è + ⋅ + ⋅ − − ⋅ = 0 + ⋅ + ⋅ + − = −
Relative phase ↔ cross-phase = = Amplitude
Velocity amplitude
Nonlinear scattering
Linear streaming(i.e. shear flow)
Ambient diffusion
Damping by phase fluctuations
NL scattering shearing
![Page 19: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/19.jpg)
19
Phase Correlation Time• Stochastic advection:
= ⋅ ⋅ + = ∑ • Stochastic advection + sheared flow:
≈ + /• Parallel conduction + diffusion:
≈ ̂ ∥ + /
è Coupling of radial scattering andShearing shortens phase correlation
è Coupling of radial diffusionand conduction shortens phase correlation
![Page 20: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/20.jpg)
20
What is actually known about fluctuations in relative phase?
• For case of P.-B. turbulence, a broad PDF of phase correlation times is
observed
pdf of
![Page 21: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/21.jpg)
21
Implications for: i) Bursts vs Turbulence
ii) Threshold
![Page 22: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/22.jpg)
22
Bursts, Thresholds
• P.-B. turbulence can scatter relative phase and so reduce/limit
growth of P.-B. mode to large amplitude
• Relevant comparison may be:
• Key point: Phase scattering for mode set by ‘background
modes ’ i.e. other P.-B.’s or micro-turbulence
è is the background strong enough??
(linear growth) vs (phase de-correlation rate)
![Page 23: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/23.jpg)
23
The shape of growth rate spectrum determines burst or turbulence
10ln)()( <nn ctg
îíì
¹<=>
domc
domc
nnnnnnnn
,10ln)()(,10ln)()(
tgtg
P-B turbulence
Isolated ELM crash
![Page 24: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/24.jpg)
So When Does it Crash?
![Page 25: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/25.jpg)
25
Modest () Peaking è P.-B. turbulence
22'00 /2 BqRPma -=
Normalized pressure gradient ()
29.2=a
• Evolution of P-B turbulence• No filaments• Weak radial extent
Toro
idal
Radial
![Page 26: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/26.jpg)
26
Stronger Peaking () è ELM Crash
22'00 /2 BqRPma -=
Normalized pressure gradient
()44.2=a
• ELM crash is triggered• Wide radial extension
Toro
idal
Radial
![Page 27: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/27.jpg)
Linear criterion for the onset of ELMs > is replaced by the nonlinear criterion > ∼ /
27
• is the critical growth rate which is determined by nonlinear interaction in the background turbulence
• N.B. / - and thus crit - are functionals of () peakedness
cc
c gt
ggt º>Þ>10ln10ln
• Criterion for the onset of ELMs
• Linear limit
0lim >Þ¥® gt c
![Page 28: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/28.jpg)
Nonlinear Peeling-ballooning model for ELM:
28
Ø < 0: Linear stable region
Ø 0 < < : Turbulent regionPossible ELM-free regimeàSpecial state: EHO, QCM (?!)
Ø > : ELMy region
ü Different regimes depend on both linear instability and the turbulence in the pedestal.
Including relevant linear physics (not only ideal P-B with ∗)Resistivity / Electron inertia /…
à Turbulence can maintain ELM-free states
![Page 29: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/29.jpg)
29
How can these ideas be exploited
for ELM mitigation and control?
![Page 30: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/30.jpg)
30
ELMs can be controlled by reducing phase coherence time
RHSB
Ct R =Ñ×
Ñ´+
¶¶ vfv b
• ELMs are determined by the product ;• Reducing the phase coherence time can limit the growth of instability;
• Different turbulence states lead to different phase coherence times and, thus different ELM outcomes
i.e. scan for fixed profiles
![Page 31: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/31.jpg)
31
• Scattering field
• ‘differential rotation’ in response to à enhanced phase de-correlation
Keys to Knobs:
- ExB shear
- Shaping
- Ambient diffusion
- Collisionality
Mitigation States:
- QH mode, EHO
- RMP
- SMBI
- …
![Page 32: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/32.jpg)
32
• QH-mode
– enhanced ExB shear à → /– Triangularity strengthens shear via flux compression (Hahm, KHB)
– Enhanced de-correlation restricts growth time
Also:
– Is EHO peeling/kink + reduced ? How maintained?
– ⟨⟩′ works via and N.B. See Bin Gui, Xu; for more on shearing effects
Scenarios
![Page 33: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/33.jpg)
33
• RMP
– = ̂ ∥ / = + – RMP à ↑ à enhanced de-correlation
or
– Enhanced flow damping à enhanced turbulence à increased (Leconte, P.D., Y. Xu)
• SMBI
– enhanced à reduced ?
and/or
– Disruption of pedestal avalanches?
Scenarios
![Page 34: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/34.jpg)
34
Phase Dynamic à A Deeper Look
![Page 35: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/35.jpg)
35
Phase Dynamics in P.-B. Turbulence is INTERESTING
• i.e. usually ∼ − Δ sets phase coherence
time by ~ linear processes à wave propagation and
dispersion
• P.-B. turbulence in strong coupling regime → 0,
if insist on ∗, non-dispersive∴ set by nonlinear dynamics
![Page 36: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/36.jpg)
36
Phase Dynamics in P.-B. Turbulence is HARD
• Recall:
+ ⋅ ∇ + ⋅ ∇ − ∇ − 2 ∇ ⋅ ∇ = 0 + ⋅ ∇ + ⋅ ∇ + ∇ − ∇ = −
– Turbulent , self-consistency?
– , coupling?
– Vorticity equation, Ohm’s law?
![Page 37: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/37.jpg)
37
Phase Dynamics in P-B Turbulence is HARD
• For hard problems recall advice of G. Polya in “How to
Solve It”
~ “If you didn’t know how to solve a problem, convert it
to an easier problem you do understand.”
• What familiar paradigm(s) does the phase dynamics
problem resemble?
![Page 38: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/38.jpg)
38
Paradigms• There are at least 2; both involving phase dynamics:
a) if ignore 2∇ ⋅ ∇/ : + ⋅ ∇ + ⋅ − ∇ = Noiseà scalar evolution with noise
à if ignore feedback on à passive scalar∴ considerable body of insight into pdf[].N.B. Little or no “physics” analysis of passive scalar statistics
with shear flow
![Page 39: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/39.jpg)
39
A) Scalar
If → 0 + ⋅ ∇ − ∇ = 0– PDF Δ as function r
– Significant deviation from Gaussian
for smaller scales
– Approaches Gaussian at large
scales
– See also large kurtosis Expect strongly non-Gaussian phase statistics
![Page 40: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/40.jpg)
40
b) If ignore or simplify spatial structure, have synchronization
problem ßà Kuramoto
i.e.
i) Single oscillator = − + + ii) Oscillator lattice, continuum à
, = + ∇ , + ∇ + (extendedKPZ)roughening synchronization
coherencede-coherence
![Page 41: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/41.jpg)
41
B) Noisy Phase Dynamics ßà Single Oscillator
• Phase slips occur
• Phase slips resemble
cross phase jumps
• Observe– No noise (blue) à phase diffusive, distribution flat
– Weak noise (red) à phase slips occur, distribution narrow
– Strong noise (black) à more phase slips, broader distribution
![Page 42: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/42.jpg)
42
Note:
à Qualitative consistency of noisy oscillator phase
and P.-B. turbulence cross phase
i.e. slips/jumps occurrence increase with
noise/turbulence level
à in P.-B. turbulence,
– noise multiplicative
– profile evolution introduces another interaction channel.
![Page 43: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/43.jpg)
43
à Phase Dynamics Problem
Promising but Challenging
![Page 44: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/44.jpg)
44
Conclusions – Coarse Grained
![Page 45: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/45.jpg)
45
• ELM phenomena are intrinsically multi-mode and
involve turbulence
• P.-B. growth regulated by phase correlation
à determines crash + filament vs turbulence
• Phase coherence can be exploited for ELM
mitigation
Conclusions
![Page 46: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/46.jpg)
46
Where to Next?
![Page 47: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/47.jpg)
47
• Simulations MUST move away from IVP – even if
motivated by experiment – and to dynamic profile
evolution, with:
– sources, sinks i.e. flux drive and particle source essential
– pedestal transport model
– anomalous electron dissipation
i.e. à - what profiles are actually achieved?
- how evolve near P.-B. marginality?
![Page 48: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/48.jpg)
48
• Should characterize:
– pdf of phase fluctuations, correlation time
– Dependence on control parameters
– Threshold for burst
• Need understand feedback of P.-B. growth on turbulent
hyper-resistivity
• Continue to develop and extend reduced models.
![Page 49: Cross Phase Evolution and Its Role in ELM BurstsSang-HeeHahn, Michael Leconte, GuilhemDif-Pradalier Acknowledgements. 4 •Not a professional ELM-ologist •Perspective is theoretical,](https://reader033.vdocuments.us/reader033/viewer/2022060918/60aac4960dd9366e6176e67d/html5/thumbnails/49.jpg)
49
Some Inflammatory Questions
• Why bother with RMP?
– Focus on ‘self-kinked state’ of QH with EHO.
Is this relevant and reproducible?
• Is SMBI ELM mitigation due:
– phase de-correlation?
– avalanche fragmentation?
à stability of SMBI-mitigated EAST profiles?