Workshops on X-band and high gradients: collaboration and resource
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Transcript of Workshops on X-band and high gradients: collaboration and resource
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Walter WuenschLCWS201225 October 2012
Workshops on X-band and high gradients:collaboration and resource
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Walter WuenschLCWS201225 October 2012
International workshop on breakdown science and high gradient technology 18-20 April 2012 in KEK
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Walter WuenschLCWS201225 October 2012
International workshop on breakdown science and high gradient technology 18-20 April 2012 in KEK
https://indico.cern.ch/conferenceDisplay.py?confId=165513
Addressed getting high gradients in rf accelerators – CLIC, FELS, medical accelerators, Compton sources, accelerating structures, photo-injectors, deflecting cavities, power sources, components etc.
The next one will be held in Trieste on 3-6 June 2012.
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Walter WuenschLCWS201225 October 2012
http://www.regonline.com/builder/site/default.aspx?EventID=1065351https://indico.cern.ch/conferenceDisplay.py?ovw=True&confId=208932
MEVARC3 – Breakdown physics workshop hosted this year by Sandia National Laboratory
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Walter WuenschLCWS201225 October 2012
Focused on the physics of vacuum arcs.
Representatives from many communities: accelerators, fast switches, satellites, micro-scale gaps, vacuum interrupters.
Many specialities: rf, plasma, material science, simulation and diagnostics
Many issues: breakdown, field emission, gas discharge, multipactor, dc and rf.
Next one planned for late 2013, early 2014
MEVARC3
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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The High Rep Rate System
N. Shipman
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Measured Burning Voltages
Subtract average voltage with switch closed from Average voltage during breakdown after initial voltage fall.
The burning voltage was measured across here.It is the “steady state” voltage across the plasma of a spark during a breakdown at which point most of the voltage is dropped across the 50 Ohm resistor. It is a property of the material.
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What are the field emitters? Why do we look for dislocations?
• The dislocation motion is strongly bound to the atomic structure of metals. In FCC (face-centered cubic) the dislocation are the most mobile and HCP (hexagonal close-packed) are the hardest for dislocation mobility.
A. Descoeudres, F. Djurabekova, and K. Nordlund, DC Breakdown experiments withcobalt electrodes, CLIC-Note XXX, 1 (2010).
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Dislocation-based model for electric field dependence
• Now to test the relevance of this, we fit the experimental data• The result is:
Power law fit Stress model fit
2 20 0( ) / //
0 0 f fE E V kT E V kTE kTBDR c c e c e e
20 / =A E V kTBDR e
[W. Wuensch, public presentation at the CTF3, available online at http://indico.cern.ch/conferenceDisplay.py?confId=8831.] with the model.]
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National Aeronautics and Space Administration
www.nasa.gov 1212
Circuitry diagram for arc parameter measurements.
Arc in LEO plasma
P=30 mTorr (Xe)
Te=0.2-0.5 eV; ne=105-106 cm-3
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National Aeronautics and Space Administration
www.nasa.gov 1313
Arc rate vs. bias voltage at low temperature (-100 C).
Arc rate vs. bias voltage at the temperature +10 C
Arc threshold vs. sample temperature
LEO
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We’re interested in low temperature collisional plasma phenomena, and transient start-up of arc-based devices.
Examples:– Vacuum arc discharge– Plasma processing– Spark gap devices– Gas switches– Ion and neutral beams
Our applications generally share the following requirements:– Kinetic description to capture non-equilibrium or non-neutral features,
including sheaths, particle beams, and transients.– Collisions/chemistry, including ionization for arcs. Neutrals are important.– Very large variations in number densities over time and space.– Real applications with complex geometry.
Applications and Model Requirements
Vacuum coating
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Plasma Properties Through Breakdown
Model parameters:Δx ~ λD ~ (Te/ne)1/2
Δt ~ ωp-1 ~ ne
-1/2
A: Initial injection of e- (no plasma yet)
B: Cathode plasma growsC: BreakdownD: Relax to steady operation
(ΔV drops to ~50V)E: Steady operation
(ΔV ~50V, I ~100A)
ne (#/cm3)101710151013
A
B
C
D
E
0
~400
~5
plas
ma
T e (e
V)
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Comments on Hierarchical Time Stepping
Performance Impact• Using kinetic time, converged to 53,800 Xe+ and 30,800 e-, after 1:32.• Using hierarchy time, converged to 53,600 Xe+ and 30,900, after 0:17.• Hierarchical time stepping achieves 5.5x speed up, or 82% time savings.
Limitation: Need to keep time factor small (N<10) for “physical” solution.
N=1 N=3 N=5 N=10Electron fountain ionizing argon at 1 torr, 300 K, using different time factors. N = 10 is clearly too large.
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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Fachbereich C Physik
3rd International Workshop on Mechanisms of Vacuum Arcs (MeVArc 2012) 26
FE & SEM measurement techniques
Field emission scanning microscope (FESM):
o Regulated V(x,y) scans for FE current I=1 nA & gap ∆z emitter density at E=U/∆zo Spatially resolved I(E) measurements of single emitters Eon, βFN, S
o Ion bombardment (Ar, Eion= 0 – 5 kV) and SEM (low res.)o In-situ heat treatments up to 1000°C
10-9 mbar
- localisation of emitters- FE properties
500 MV/m
10-7 mbar
Ex-situ SEM + EDX Identification of emitting defectsCorrelation of surface features to FE properties (positioning accuracy ~ ±100 µm)
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Fachbereich C Physik
3rd International Workshop on Mechanisms of Vacuum Arcs (MeVArc 2012) 27
Regulated E(x,y) maps for I = 1 nA , ∆z ≈ 50 µm of the same area
FESM results
130 MV/m 160 MV/m 190 MV/m
o EFE starts at 130MV/m and not 500MV/mo Emitter density increases exponentially with fieldo Activated emitters: Eact=(1,2 – 1,4)∙Eon
→ 2nd measurement: shifted to lower fields
Eon = 120 MV/m
Possible explanations:o Surface oxideo adsorbates
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Walter WuenschLCWS201225 October 2012
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Walter WuenschLCWS201225 October 2012
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Real life
W tip
Cu surface
W tipCu sample
Piezo motor
Slider
Built-in SEM sample stage04/10/2012 MeVArc12, Albuquerque NM, T. Muranaka 30
W tip
Cu surface
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04/10/2012 MeVArc12, Albuquerque NM, T. Muranaka 31
Emission stability measurement
Step
10-12 1200 points at 217V
Mea
sure
d C
urre
nt [A
]
2
4
6
1. Measured current exceeded 1pA2. Up to 6 pA3. Decreased to the bg-level4. Stayed at the bg-level
2
34
1
1000 points at 273V10-9
3
2
1
Step1
1. Measured current exceeded 1pA2. Decreased to the bg-level3. Spikes ~1nA5. Emissions > nA then exceeded 10nA
2
3 3
4
2
`
No emission >1pAbetween 218-272V