dept. of physics, university of crete aug 15 – 30, 2013
DESCRIPTION
U C M. CPO TS – 3 rd ERASMUS Intensive Program Introduction to C harged P article O ptics: T heory and S imulation. http://cpots2013.physics.uoc.gr Dept. of Physics, University of Crete Aug 15 – 30, 2013 Heraklion, Crete, GREECE. - PowerPoint PPT PresentationTRANSCRIPT
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CPOTS – 3rd ERASMUS Intensive ProgramIntroduction to Charged Particle Optics: Theory
and Simulation
http://cpots2013.physics.uoc.grDept. of Physics, University of Crete
Aug 15 – 30, 2013 Heraklion, Crete, GREECE
UCM
CPOTS 2013: L4.1 - DK 1/32http://cpots2013.physics.uoc.gr
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 2/17
Project 65 Element Lens
Tobias Bauer1, Anastasios Kanellakopoulos2, Tuğçe Nur Tandırcıoğlu3
Supervisors: Genoveva Martínez López4, Pilar Garcés4
1 Johann Wolfgang Goethe-Universität Frankfurt am Main2 National Kapodistrian University of Athens
3 Selçuk University4Complutense University of Madrid
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 3/17
• Motivation Design an afocal lens Study the afocal properties of the 5 element lens
• Goals Find the optimal voltage element combination Create the best possible beam for HDA entry
Motivation and Goals
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 4/17
What is a 5 element lens?
5 element lens
A 5 element lens is just two 3 element lenses
back to back attached!
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 5/17
Geometry
14.5 mm 14 mm 29 mm 14 mm 14.5 mm
10 m
m
1 mm
1 mm
V1 V2 V3 V4 V5
Heddle’s Lens
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𝑉3𝑉1 = ඨ𝑉5𝑉1
CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 6/17
Since the two lenses are identical the electrode voltages must fulfill
the relationships:
Afocal Mode
𝑉2𝑉1 = 𝑉4𝑉3 𝑉3𝑉1 = 𝑉5𝑉3
and the transverse magnification is:
ȁ𝑀ȁ= ൬𝑉5𝑉1൰−1/4
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 7/17
• Afocal lens No focus points Beam doesn’t converge or diverge
e.g. Beam that enters parallel, exits parallel
Afocal Lens
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 8/17
Afocal Lens Result
V5/V1 V2/V1 V3/V1 V4/V1 Mexp |Mth| α
0.25 2.436 0.50 1.218 -1.411 1.414 0.194
0.5 3.055 0.707 2.161 -1.188 1.189 0.165
1.0 3.691 1.000 3.691 -0.998 1.000 0.142
5.0 4.900 2.236 10.957 -0.678 0.669 0.001
10.5 5.450 3.240 17.660 -0.557 0.556 0.001
10.5 0.559 3.240 1.811 -0.568 0.556 0.002
24.0 5.820 4.899 28.512 -0.446 0.451 0.001
24.0 0.81 4.899 3.968 -0.463 0.451 0.001
V5/V1 V2/V1 V3/V1 V4/V1 Mexp |Mth| α
0.25 2.436 0.50 1.218 -1.411 1.414 0.194
0.5 3.055 0.707 2.161 -1.188 1.189 0.165
1.0 3.691 1.000 3.691 -0.998 1.000 0.142
5.0 4.900 2.236 10.957 -0.678 0.669 0.001
10.5 5.450 3.240 17.660 -0.557 0.556 0.001
10.5 0.559 3.240 1.811 -0.568 0.556 0.002
24.0 5.820 4.899 28.512 -0.446 0.451 0.001
24.0 0.81 4.899 3.968 -0.463 0.451 0.001
V2
V4
Output Angle
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 9/17
• Aberrations Spherical Coma
Aberrations
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 10/17
Spherical AberattionV5 R1 R1.5 R2 R2.5 R3
0.25 0.010 0.023 0.049 0.088 0.145
0.50 0.011 0.023 0.040 0.064 0.102
1.0 0.008 0.016 0.028 0.042 0.066
5.0 0.016 0.021 0.024 0.023 0.017
10.5 0.001 0.002 0.006 0.013 0.025
10.5 0.028 0.045 0.065 0.090 0.121
24.0 0.008 0.013 0.021 0.029 0.041
24.0 0.021 0.034 0.049 0.067 0.090
V5 R1 R1.5 R2 R2.5 R3
0.25 0.010 0.023 0.049 0.088 0.145
0.50 0.011 0.023 0.040 0.064 0.102
1.0 0.008 0.016 0.028 0.042 0.066
5.0 0.016 0.021 0.024 0.023 0.017
10.5 0.001 0.002 0.006 0.013 0.025
10.5 0.028 0.045 0.065 0.090 0.121
24.0 0.008 0.013 0.021 0.029 0.041
24.0 0.021 0.034 0.049 0.067 0.090
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 11/17
Spherical Aberration
R = 0.121 mm
R = 0.025 mm
V5 = 10.5 Volts, V2 = 5.450 Volts V5 = 10.5 Volts, V2 = 0.559 Volts
Ke = 1eV, Plane X = 120mm (exit)
1°2°3°
Initialangle
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CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 12/17
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V4 = 40V
V4 = 20V
V4 = 0V
Better Parallel Alignement
keeping the same transmission
Optimisation
CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 13/17
Output Angle Transmission
V2
V3
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Ave
Angl
e Su
mTr
ansm
issio
n
*currently not optimized
100% Transmission with smallest angle sum V2 = 205V, V3 = -50, V4 = 40V*
Following Traces
CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 14/17
V2
V 3
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Tran
smiss
ion
V2 = 205, V3 = -50, V4 = 40V2 = 0, V3 = -100, V4 = 40 V2 = 110, V3 = -80, V4 = 40
going to < 50% Transmission
Following Traces - Results
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• Introduce new Score value to minimize• Example:
Score =W1 * Transmission + W2 * Parallel_Angle_Sum + W3 * Fokus_Width + …
Score =3 * Best_Angle / Ave_Angle + 1 * Transmission
How to continue…
Trans
CPOTS 2013: P6 http://cpots2013.physics.uoc.gr 16/17
V 3
V2
V 3
V2
V2
V 3
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http://cpots2013.physics.uoc.grCPOTS 2013: P6 17/17
The endThank you for your attention
Any questions?