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Laboratoire de Physique des Plasmas
ION ENERGY DISTRIBUTION FUNCTION MEASURED BY RETARDING FIELD ENERGY
ANALYZERS
Ane Aanesland
CNRS – Ecole Polytechnique
France
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Overview
1. Principle and requirements for correct measurement
1. Example: LPP design
2. Trouble shooting
3. Plasma physics phenomena understood by RFEA
1. Diffusion and Boltzmann expansion
2. Charge exchange collisions
3. RF oscillating sheaths for IEDF tailoring
4. Double Layers and beam instabilities
5. Positive and negative ion beams
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RFEA principle
electron
repeller
ion
energy
discriminator
Risk for space charge and
secondary electrons adding to the measured
current
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Ii = eA vf (v)dvvmin
vmax
"
dIi
dVD
= "Ae
2
mf (v)
Discriminator Voltage (a.u.)
dI/
dV
(a.u
.)
RFEA principle
D C S R
Discriminator Voltage (a.u.)
Colle
cto
r C
urr
ent
(a.u
.)
v =2eV
mi
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Requirements - Size
•! Collisions within the analyzer –! 1 mTorr !ex~ 3 cm"
–! 50 mTorr !ex~ 0.6 mm
Practical grid distance
determines pressure range (differential pumping)
•! Space charge and ion accumulation –! Jbeam ~ JCL
Limit the current entering
the analyzer by the entrance slit
•! Ion beam trajectories –! sheath “deformation” when r> 1-3!D"
Grid spacing and wire size
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Requirements - Size
•! Collisions within the analyzer –! 1 mTorr !ex~ 3 cm"
–! 50 mTorr !ex~ 0.6 mm
Practical grid distance
determines pressure range (differential pumping)
•! Space charge and ion accumulation –! Jbeam ~ JCL
Limit the current entering
the analyzer by the entrance slit
•! Ion beam trajectories –! sheath “deformation” when r> 1-3!D"
Grid spacing and wire size
Bohm and Perrin, RSI 1993
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LPP design (J. Guillon, A. Perret)
Entrance slit2 mm hole with a mesh grid
GridsNickel mesh (60% transparency, 11 µm wires)
SpacingKapton rings 250 µm thick
CollectorSteinless steel
Total length 1.02 mmdifferentially pumped to increase
pressure range
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Trouble shooting (Bohm & Perrin, RSI 1993)
Correct IV curve measured by the RFEA
Electrons arriving from the plasma leads to
increasing ionization in the RFEA
Secondary electrons from the collector
leads to current peak at low energy and a current offset
Bohm and Perrin, Rev. Sci. Instrum. 64, 1993
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Laboratoire de Physique des Plasmas
Plasma physics investigations via RFEA A few examples
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Vp (x) =Vp (0) +kTe
eln
n(x)
n(0)
"
# $
%
& '
Diffusion with Boltzmann expansion
C. Charles et al., JVST 10, 1992
Local and non-local plasma potential
Source Diffusion
x=10 cm
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Charge exchange collisions
C. Charles et al., JVST 10, 1992
Vp (x) =Vp (0) +kTe
eln
n(x)
n(0)
"
# $
%
& '
"ex =1
ng#= 5.2
1
pmTorrcm
Source Diffusion
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Charge exchange collisions
C. Charles et al., JVST 10, 1992
Vp (x) =Vp (0) +kTe
eln
n(x)
n(0)
"
# $
%
& ' �
ex =1
ng� = 5.21
pmTorrcm
0.4 mTorr
6 mTorr
Source Diffusion
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Charge exchange collisions in beams
Popelier et al., J. Phys. D: Appl. Phys, 44, 2011
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IEDFs in RF oscillating sheaths
!rf =74 ns (13.56 MHz) !ion= 70 ns (2x1011 cm-3)
250 W
800 W
C. Charles et al., Phys. Plasmas 7, 2000
" ion
" rf<<1
Low frequency regime – bimodal IEDF
High frequency regime – single peaked IEDF
" ion
" rf>>1
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IEDFs in RF oscillating sheaths
D. Gahan et al., Plasmas Proc. & Poly., 2009
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IEDF downstream of a Double Layer
DL
Source
Expansion
0°
90°
High potential
Low potential
C. Charles et al., 1999 - 2011
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DL
Source
Expansion
Instabilities carried by beam ions
A. Aanesland et al., PRL, 2006
High potential
Low potential
accelerated electrons
accelerated ions
Increased ionization
Beam ion carry the instability
downstream
Plasma potential
perturbation
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Laboratoire de Physique des Plasmas
RFEA FOR MEASURING POSITIVE AND NEGATIVE IONS
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PEGASESPlasma propulsion with Electronegative Gases
Stage 1Plasma discharge, power coupling
Stage 2Electron filtering, ion-ion formation
Stage 3Acceleration andrecombination
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Alternate acceleration concept and requirements
Extraction waveform
Upper limit:
•! Ion plasma frequency (10-20 MHz)
•!Time of flight thought the grids ~ 50-300 ns (3-20 MHz)
Lower limit:
•!Beam packet blow-up and oscillations (to be determined but
expected in the kHz range)
Optimization
•!Square wave-forms with variable periods and voltages
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RFEA grid bias setup
D C S R
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Alternate acceleration at ±100 V at 1 KHz
SF6
Positive ion beam at +114 V,
Negative ion beam at – 67 V
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Bias on Grid 1 (V)"
Ion b
eam
energ
y (
V)"
Beam energy versus acceleration voltage
SF6
Positive ion beam at +114 V,
Negative ion beam at – 67 V
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Alternate acceleration at ±100 V at 1 KHz
SF6
Positive and negative ion beam amplitude
are similar, constant but noisy
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Alternate acceleration in Argon at ±150V, 1 KHz
Two positive ion beams at +155 V and +100 V
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Alternate acceleration in Argon at ±150V, 1 KHz
Two positive ion beams at +155 V and +100 V
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Summary and Conclusion
1. Pressure and plasma density main parameters for RFEA sizing
2. Potentials on each grid needs to be adapted for the current plasma condition – trouble shooting
3. Provides information on both local and non-local plasma parameters
The RFEA is
extremely powerful if used with care
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Laboratoire de Physique des Plasmas
THANK YOU FOR YOUR ATTENTION