DENSIDADE DE IMÓVEIS COMERCIAS DENSIDADE DE IMÓVEIS RESIDENCIAIS.
The Heavy Ion Beam Diagnostic - Application for a Small ... · Racios (abs.) Hg Xe. 12 12. ... -6...
Transcript of The Heavy Ion Beam Diagnostic - Application for a Small ... · Racios (abs.) Hg Xe. 12 12. ... -6...
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The Heavy Ion Beam Diagnostic - Application for a Small Fusion Device
Artur Malaquias Camberra , 26th of August 2013
A. Malaquias, I.S. Nedzelskiy, R.B. Henriques, C. Silva, H. Fernandes
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Diagnostics in fusion plasma devices shall provide for
Machine protection and safe operation
Plasma Control
Performance optimization
Plasma control and performance are critical for economic viability of fusion
- stability, confinement, heating efficiency, fuelling, power exhaust –
Calling for measurements and physics studies on present devices:
Control of MHD modes (magnetic measurements)
Disruptive modes
NTMs leading to instabilities and increased transport
Alfvén Eigenmodes
Turbulence and transport (density, temperature, potential, lost particles)
Gradients, fluctuation levels, instabilities induced losses (e.g. Alfvén)
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Large amount of diagnostic techniques is available today
Magnetic and Electric Probes
Spectroscopic and Optical
Beam and Laser aided
Particle (ions and neutrals)
Fusion (gamma, neutron)
Most required for physics studies are diagnostics that can measure the different plasma parameters and their interplay at different radial locations
Heavy Ion Beam Diagnostic can in principle measure simultaneously the radial profiles and fluctuation spectra for:
Electron density and temperature
Plasma internal magnetic field
Plasma potential
The operation of the HIBD in a small fusion device – tokamak ISTTOK
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Outline
• HIBD principles and layouts
• Application to a small tokamak
– Retrieval of plasma parameters
Density, temperature, poloidal field, potential
– The fluctuation measurements
• Summary and future plans
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HIBD principles and layouts
Artur Malaquias Camberra , 26th of August 2013
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PlasmaBT
I+
I++
secçãodo feixe
detectorde intensidadee posição
fenda
plac
as co
nduc
tora
s
I+++
HIBProbe concept
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HIBDiagnostic concept
Multiple cell detector (Secondary ions)
Toroidal direction
Primary beam detector
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Measurable plasma parameters
Plasma density – Secondary beam current is strongly determined by local electron density (and ion density for Ti>2keV)
Electron temperature – Secondary beam current depends on effective cross section as determined by electron temperature (and ion for Ti>2keV)
Plasma potencial – Secondary beam energy is a unique function of plasma potential at the ionization point (electrostatic approach)
Poloidal field – Plasma current generates a plasma magnetic poloidal field that governs the beam trajectories in the toroidal direction giving rise to a charateristic spatial distribution at the detector
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Application to a small tokamak - ISTTOK
Artur Malaquias Camberra , 26th of August 2013
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Beam trajectories
i x,y,z
B and E are updated on each iteration step
Electric field (input) = inverted parabola with peak eV ~ 3/2 KTe
Electro-magneto static approach
Magnetic field (calculated) = toroidal field + poloidal field (external +) plasma current
Beam divergence (input)
Beam
dia
met
er
assimetric current density profile
(at the detector)
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Plasma Poloidal Magnetic Field - Plasma current model
Asymmetric current profiles are generated
by a combination of symmetric profiles
Radial symetric profiles
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Beam attenuation – effective cross-sections
Tp (eV) Tp (eV)
Integration of cross-section over Maxwellian distribution of electron velocities
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MOST IMPORTANT IONIZATION REACTIONS:
Beam attenuation – path integral
Primary beam (I+)
tertiary beams (I3+)
secondary beam (I2+) density and temperature profiles
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Secondary beam attenuation
Primary beam attenuation
Secondary beam generation
Beam attenuation – path integral
(dl - detector cell height projected into the primary beam path)
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Detectorsecundário
Câmara
Plantaformasuperior do ISTTOK
Isolador
Válvula
Medidorde pressão
Pulsador
Fonte iónica
Isolador
Filtro demassa
Detector primário
Sistema dedeflecçãodo feixe
Isoladorcerâmico
Bomba Turbomolecular
FichasBNC
Célula deFaraday
Bomba turbomolecular
HIBD Layout
Toroidal field – determines y coordinate
Poloidal field – determines z coordinate
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Retrieval of plasma parameters
Artur Malaquias Camberra , 26th of August 2013
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1122(det) )(ˆ)( 2 dsrrnABII jjeoj σ++ =
ˆ)(exp.)(ˆ)(.
.ˆ)(ˆ)(expI2I
223212
113112102
(det)
1
B
A
Rpr ejje
rR
Aeej
j
j
i
dssndlrrn
dssnsn
−
+−=
∫
∫++
σσ
σσ
Primary beam attenuation (integral form)
Primary beam attenuation Secondary beam attenuation
Tertiary beam generation
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Simplified version
A1=0 (week primary beam attenuation due to tertiary ion production)
B=1 (weak secondary beam attenuation)
dlII
rnj
jje +
+
=2
)(ˆ2(det)
12σ
The generation factor (n.σ) can be related to the secondary currents by:
∑−=−
=
+++1
0
2(det)2
10
j
LLj III
Step 1: Simplified model
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0
10
20
30
40
50
60
70
80
0 5 10 15 20# cel
corre
ntes
(nA
)
Step 1: Simplified model retrieves (n.σ) normalized profile
Detected secondary beam currents
ne(0) = 1×1019
Te(0) = 200 eV
Eb=22 keV
I0=1 uA
0
1
2
3
4
5
6
-10 -5 0 5 10
raio (cm)
n x
(m
-1)
assumidorecuperado
0
0.2
0.4
0.6
0.8
1
1.2
-10 -5 0 5 10
raio (cm)
n x
(n
orm
aliz
ado)
assumidorecuperado
# row
Radius (cm) Radius (cm)
retrieved inputed
retrieved inputed
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Simplified version
A1=0 (week primary beam attenuation due to tertiary ion production)
B ≠ 1 (moderate secondary beam attenuation)
Step 2: Intermediate model
Primary beam (I0+)
secondary beam att.
(I2+I3+) ≠ 0
(I+I3+) = 0
Total secondary current generated along primary beam path
Total secondary current lost for tertiary ions
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Simplified version
Attenuation of each secondary beam I2+I3+
Step 2: Intermediate model
1ˆ 23 <<
∫ p
j
R
r e dsn σ
For ISTTOK the exp() argument is small
Linearized attenuation of each secondary beam I2+I3+
=
∫−−≅ +++→+ p
jRr ejjj dsnIII 23
2232 ˆ1 σ
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Similar normalized shape for the primary and secondary beams’ attenuation profiles:
Step 2: Intermediate model (secondary beam attenuation factor)
Beam path (m)
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A suitable loss factor can be obtained from the ratio:
Step 2: Intermediate model (secondary beam attenuation factor)
Loss current by each secondary beam
Loss current by all secondary beams
TAKING RELATIVE IDENTICAL QUANTITIES AND REPLACING INTEGRALS BY DISCRETE
EXPERIMENTAL VALUES
N – TOTAL NUMBER OF DETECTOR ROWS
L – CORRESPONDING DETECTOR ROW FOR IONIZATION POINT j
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0
1
2
3
4
5
6
-10 -5 0 5 10
raio (cm)
nex
12 (
m-1
)
recuperado
assumido
The integral attenuation of each secondary beam can be estimated from:
Step 2: Intermediate model (secondary beam attenuation)
Total current of tertiary ions due to: I2+I3+
Plasma radius (cm)
Retrieved nσ
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A1 ≠ 0 (moderate primary beam attenuation due to tertiary ion production)
B ≠ 1 (moderate secondary beam attenuation)
Step 3: Accounting for the reaction I+I3+
Tertiary beams generation factor
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For a given temperature the ratio between production of secondaries and tertiaries is constant
Step 3: Accounting for the reaction I+I3+
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Step 3: Accounting for the reaction I+I3+
Plasma temperature varies along the radius, but ratio remains fairly constant for a range of profiles at a given max. temperature
0.200.230.250.280.300.330.35
osc5
osc3 oc
o
picad
o
parab
olico
quad
rado
Frac
ção
de te
rciá
rios
R
100200300
Te(0) (eV)
(Cur
rent
rat
io o
f te
rcia
ries
to
seco
ndar
ies)
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0
2
4
6
8
-10 -5 0 5 10
'assumido'
'recuperado'
a)
b)
c)
Osc5
0123456
-10 -5 0 5 10
'assumido'
'recuperado'T e = 200 eVn e = 1x1019 m-3
0
2
4
6
8
-10 -5 0 5 10
'assumido'
'recuperado'
a)
b)
c)
Oco
a) Te = 100 eV e ne = 5×1018 m-3
b) Te = 200 eV e ne = 1×1019 m-3
c) Te = 300 eV e ne = 1.5×1019 m-
3.
Model recovers very well the profile of
Plasma radius (cm) Plasma radius (cm)
inputed retrieved
inputed retrieved
Plasma radius (cm)
retrieved inputed
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4.5
1.4
-1.6
-4.4
3.55.
57.59.
511.513
.515.517
.519.521
.523.525
.527.529
.5
0
1
2
3
4
5
neσ 1
2 (m-1
)
raio
(cm)tempo (ms)
4.5
2.4
0.4
-1.6
-3.5
3.5
5.5
7.5
9.5
11.5
13.5
15.5
17.5
19.5
21.5
23.5
25.5
27.5
29.5
raio (cm)
tem
po (m
s)
Plasma current
Experimental results
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4.7
-2.4
1622
2834
4046
5258
32.8
0
0.01
0.02
0.03
0.04
0.05
nex
σ12
(u.a
.)
raio (
cm)
tempo (ms)
4.7
1.1
-2.4
1316192225283134374043464952555861
raio (cm)
tem
po (m
s)
Experimental results Alternated discharge (2 cycles)
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-0.4 -0.3 -0.2 -0.1 0.1 0.2 0.3
-0.2
0.2
0.4
0.6
Hg +→Hg 3+ and Xe +→Xe 2+ (E = 22 keV, αHg = 32.0º, αXe = 33.3º).
0
4
8
12
50 100 150 200 250 300 350
temperatura (eV)
Rac
ios
(abs
.)
Hg
Xe
12
12
ˆˆ
σσ
(a)
Hg
Xe
13
12
ˆˆ
σσ
(b)
Retrieval of electron density and temperature
Two species method
(quasi-constant function of temperature)
(high sensivity as a function of temperature)
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The Hg2+ currents (not detected) are estimated from the Xe2+ currents via:
22
1212
ˆˆℜ
= XeHg
XeHg nn σσ
Hg+ primary beam current at each ionization point is retrieved iteratively by:
Retrieval of electron density and temperature
The primary beam current at ionization point has to be determined for Xe and Hg
using the nσ retrieval method
j = ionization P (1,2,..N)
L = cell number (0,…,N)
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50
100
150
200
250
300
350
-6 -4 -2 0 2 4 6
Raio (cm)
Tem
pera
tura
(eV
)
0
5
10
15
20
Den
sida
de (x
1018
m-3)densidade
temperatura
50
100
150
200
250
300
350
-6 -4 -2 0 2 4 6
Raio (cm)
Tem
pera
tura
(eV)
0
5
10
15
20
Den
sida
de (x
1018
m-3)
densidade
temperatura
Retrieval of electron density and temperature
Plasma radius (cm)
Plasma radius (cm)
Electron density and temperature are very well retrieved
density
density
temperature
temperature
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Plasma current for 2 discharges Radial average density for two discharges
-20
213
19
25
31
0
70
140
210
T e (e
V)
R (cm)
t (ms)
-20
213
19
25
31
4
6
8
10
12
n e (1
018 m
-3)
R (cm)
t (ms)
interferometer
Te ne
Experimental results
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Retrieval of plasma parameters
Artur Malaquias Camberra , 26th of August 2013
Plasma potential measurements
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MCAD
Cs+
Stop Start
Modulator
Cs2+
Primary detector
Sample volumes Plasma
Average plasma potential
measurements
Absolute plasma potential measurements
1e
Plasma potential measurements - method
K1S + eVS = K1P + eVP K2P + 2eVP = K2D + 2eVD VP = (K2D - K1F) + (2VD - VF)
Energy conservation
K1P ≈ K2P
S - source
D - detector
P
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x
y
z Ch1
Ch2
Ch3
Ch4
MCAD “Start” “Stop”
Control module
Cylindrical plates
XY-alignment plates
Z-plates
620 mm
TOF-path module
Plasma potential measurements - setup
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-8 -6 -4 -2 0 2 4 6 8-800
-700
-600
-500
-400
-300
-200
-100
0
100
Φpl, V
r, cm
Plasma potential measurements – experimental results
Langmuir probes
Negative biasing by emissive electrode
Discharge 1 – no biasing
Discharge 2 – biasing
(<ne> = 4.5×1018)
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Retrieval of plasma parameters
Artur Malaquias Camberra , 26th of August 2013
Plasma magnetic poloidal field determination
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In ISTTOK all ion trajectories are very close to radial
Plasma poloidal field determination – cylindrical approximation
Secondary detector matrix
Primary detector matrix
1st ionization dl (dt)
1
2)1(
2)1()1(21
211
2)1( 2
1
s
TaTvzzz pd+++++ +++=
Primary beam initial position
secondary beam increment from
plasma bondary to detector position
Velocity of primary beam at ionization point ; secondary
time of flight
Secondary ions average
acceleration from ionization point to plasma perifery Secondary beam
position at cell (1)
Poloidal magnetic field outside the plasma:
Motion in magnetic field inside the plasma:
y
z x
Provides for calculation of initial conditions
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( )dtT
TvdtTvzzzdv
j
jpjjjjjjdjj
21
)1(2
)(2
)(21
)1(2)()(2
)1(2
)1()1,( −
−+−−−=
+
++
++++
+++
+
dtdvdtvzz jjjjj+
++++
+ −+= )1,()()()1( 21
++
+++ −= )1,()()1( jjjj dvvv
dtdvTvTv jjjpjjpj+
++
+++ −= )1,()(
2)()1(
2)1( 2
21
21
21
taking the z displacement between two consecutive cells:
poloidal field module can be obtained from force equation
Plasma poloidal field determination – recursive method
+++ − 2
)(2
)1( jdjd zz
mean time of flight
local increments on: z, v, a
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0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
-10 -5 0 5 10
raio (cm)
j (
MA
/m2 )
j plano
j parabolóico
j picado
-31
-28
-25
-22
-5.5 -5.1 -4.7 -4.3 -3.9 -3.5 -3.1 -2.7
z (mm)
y (c
m)
plano
parabolóico picado
Plasma poloidal field determination – profile retrieval
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0.0
0.2
0.4
0.6
0.8
1.0
1.2
-10 -5 0 5 10
raio (cm)
j (M
A/m
2 )
assimétrico
-31
-28
-25
-22
-5.5 -5.1 -4.7 -4.3 -3.9 -3.5 -3.1 -2.7
z (mm)
y (c
m)
picado
assimétrico
0
5
10
15
20
25
30
-10 -5 0 5 10
Raio (cm)
Bp (
mT)
o B p+ recuperado B p+ assumido - B p total
Plasma poloidal field determination – profile retrieval
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0
1000
2000
3000
4000
5000
6000
7000
8000
0.00 10.00 20.00 30.00
TIME (ms)
P L A
S M
A C
U R
R E N
T ( A
)
#2939
#2940
T1 T2 T3 T4
Bp
1.2
1.6
2.0
2.4
2.8
3 4 5 6 7
Row Number
ζ ( y
) ( m
m )
T 1
T 2
T 3
T 4
-1
0
1
2
3 4 5 6 7
Row Number
P o l o
i d a l
F i e
l d N
o r m
a l i s
e d t o
P l a
s m a
C u r
r e n t
( a . u
. )
T
T T T
A1 A2
A3 A4
1
2 3 4
Experimental results
Two similar discharges were used
(due to limited number of ADCs)
Profile flattening (T1T4) Magnetic axis
displacement to outside
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Retrieval of plasma parameters
Artur Malaquias Camberra , 26th of August 2013
Fluctuations Measurements
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Fluctuation measurements – hardware improvements )(~~eTnσ
new detection system (low noise)
Frequency bandwidth
Phase shift
new home made amplifiers (250 kHz)
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Fluctuation measurements – experimental results )(~~eTnσ
Excellent improvement on S/N
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HIBD - spectra Mirnov Coil - spectra
Fluctuation measurements – experimental results )(~~eTnσ
MHD fluctuations
Noise FFT Clear cross-correlation patterns between HIBD and Mirnov
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Fluctuation measurements – experimental results )(~~eTnσ
cross correlation between different detector cells radial structure of the mode
Fluctuation amplitude profile
Signals are coherent with rational flux surface located near the
plasma edge (m=1?)
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Fluctuation simulations – frequency domain limits )(~~eTnσ
Test profile 200 kHz Φ = 0
Φ = 180
Sampling rate at 2 MHz
The fluctuation structure is well recovered and with negligible phase
distortion
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Fluctuation simulations – frequency domain limits )(~~eTnσ
Test profile 500 kHz Φ = 0
Φ = 180
Sampling rate at 5 MHz
The fluctuation structure is well recovered but phase distortion is
around 15%
phase information can be regained by accounting for the time of flight of primary and secondary beams and off-setting the cell signals
to the same time reference
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Artur Malaquias Camberra , 26th of August 2013
Summary
At ISTTOK the HIBD allows for the determination of the: plasma density, electron temperature, plasma potential and plasma poloidal magnetic field
The absolute profiles can be obtained for frequencies up to 250 kHz (ISTTOK) utilizing well tested retrieval methods
The fluctuations’ measurements by HIBD show no path integral effect in the range of frequencies of the amplifiers
The HIBD can provide unique possibilities for studying MHD modes and in particular Toroidal Alfvén Eigenmodes by providing the simultaneous measurements of plasma potential, plasma density and poloidal field fluctuations.
The HIBD can provide also gradients and absolute fluctuation measurements for turbulence studies.
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Artur Malaquias Camberra , 26th of August 2013
Future plans
Measurements and characterization of turbulence response under limiter biasing, GAM studies, validation with Langmuir probes (edge)
Characterization of MHD fluctuation activity and mode location in alternating plasma discharges, validation with Mirnov coils
Develop electrostatic combined detector for simultaneous measurements of fluctuations and profiles of plasma poloidal field, plasma potential and nσ (PhD student)
Develop studies under international collaboration activities - MAST, TJ-II, (PhD Student)
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References
”Time–of-flight energy analyser for the plasma potential measurements by a heavy ion beam diagnostic” S. Nedzelskiy, A. Malaquias, B. Gonçalves, C. Silva, C. A. F. Varandas, and J. A. C. Cabral, REVIEW OF SCIENTIFIC INSTRUMENTS VOLUME 75, NUMBER 10 OCTOBER 2004, pp. 3514-3516 in Proceedings of 15th Topical Conference High-Temperature Plasma Diagnostics, San Diego, California, April 19-22,2004
"The Heavy Ion Beam Diagnostic for the Tokamak ISTTOK" J.A.C. Cabral, A. Malaquias, A. Praxedes, W. van Toledo, and C.A.F. Varandas. IEEE Transations on Plasma Science, vol 22 nº4, August 1994.
"Analysis of the ISTTOK plasma density profile evolution in sawtooth discharges by heavy-ion beam probing" J.A.C. Cabral, C.A.F. Varandas, A. Malaquias , A. Praxedes, M. P. Alonso, P. Belo, R. Canário, H. Fernandes, J. Ferreira, C. J. Freitas, R. Gomes, J. Pires, C. Silva, A. Soares, J. Sousa and P.H.M. Vassen Plasma Phys. Control. Fusion 38 (1996) 51-70 "Evolution of the poloidal magnetic field profile of the ISTTOK plasma by heavy ion beam probing" A. Malaquias, J. A. C. Cabral, C.A.F. Varandas and R. Canário Fusion Engineering and Design, 34-35 (1997) 671-674 “Evolution of the tokamak ISTTOK plasma density and electron temperature radial profiles determined by heavy ion beam probing” A. Malaquias, I.S. Nedzelskii, C.A.F. Varandas, and J.A.C. Cabral Review of Scientific Instruments, V70, N1, Jan 1999, Part II. Pp. 947-950
“Engineering Aspects of an Advanced Heavy Ion Beam Diagnostic for the TJ-II Stellarator” A. Malaquias, C. Varandas, J.A.C. Cabral, L.I. Krupnik, S.M. Khrebtov, I.S. Nedzelskij, Yu. V. Trofimenko, A. Melnikov, C. Hidalgo, I. Garcia-Cortes Fusion Technology V.1 pp. 869, 1996
Multichannel time-of-flight technique for plasma potential profile measurements by heavy ion beam diagnostic on the tokamak ISTTOK , I. S. Nedzelskiy, A. J. Malaquias, Yu. I. Tashchev, C. Silva, H. Figueiredo, H. Fernandes, and C. A. F. Varandas, Rev. Sci. Instrum., 77, 033505 (2006) “New detection system and signal processing for the tokamak ISTTOK heavy ion beam diagnostic”, R. B. Henriques, I. S. Nedzelskiy, A. Malaquias, and H. Fernandes, Rev. Sci. Instrum. 83, 10D705 (2012); http://dx.doi.org/10.1063/1.4729496 (3 pages)
“Internal measurements of Alfvén eigenmodes with heavy ion beam probing in toroidal plasmas”, A.V. Melnikov et al., Nucl. Fusion 50 (2010) 084023 (11pp) doi:10.1088/0029-5515/50/8/084023