clic_dds 1 st cell studies
DESCRIPTION
CLIC_DDS 1 st cell studies. Alessandro D’Elia. Updates on Vasim CERN visit. Meeting with Walter Wuensch et al. Suggested to chamfer the edges of the cell as it is mechanically not possible to have sharp edges Many discussions with Riccardo and me regarding simulations: - PowerPoint PPT PresentationTRANSCRIPT
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CLIC_DDS 1st cell studies
Alessandro D’Elia
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Updates on Vasim CERN visit• Meeting with Walter Wuensch et al. • Suggested to chamfer the edges of the cell as it is
mechanically not possible to have sharp edges • Many discussions with Riccardo and me regarding
simulations: 1) The method of using ~ 200-300k mesh and solving zero order
solution is not accurate 2) When these results were compared to HFSS10 and CST
microwave, frequency was off by -30 MHz and H-field was higher by 15% i.e. 30 % more pulse temperature rise.
3) The better method is : Using surface approximation of ~2 micron and solving second order solution.
4) With this method now, results are consistent in HFSSv10, v12 and CST microwave.
5) Riccardo suggested a major change in cell geometry.
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a) b) c) 3
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Hsmax(mA/m)
Eacc(V/m)
Hsmax/Eacc(mA/V)
1.817 0.3478 5.22
Zero order soln.180k mesh
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Eacc [V/m] Hsmax[A/m] Hs
max/Eacc[mA/(V/m)]
a 6.277e8 3.554e6 5.7
b 6.271e8 3.752e6 6
c 6.277e8 3.855e6 6.1
a) b) c)
Unphysical
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Hsmax(mA/m)
Eacc(V/m)
Hsmax/Eacc(mA/V)
1.817 0.3478 5.65
Second order soln.
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Zero order slon.F=11.9682 GHz
Hsmax(mA/m)
Eacc(V/m)
Hsmax/Eacc(mA/V)
2.0841 0.41 5.04
New geometry : Riccardo
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First order soln.F=11.9897 GHz
Hsmax(mA/m)
Eacc(V/m)
Hsmax/Eacc(mA/V)
1.7 0.32 5.38
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Order of Soln.
facc Hsmax(mA/m)
Eacc(V/m)
Hsmax/Eacc(mA/V)
Zero 11.9682 2.0841 0.41 5.04
First 11.9896 1.7 0.32 5.3
Second 11.9896 1.6 0.285 5.61
SecondHigher mesh
11.9895 1.6 0.31 5.16
Mixed 11.9847 2.17 0.41 5.29
HFSS v 12 results with a modified geometry
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Freq (GHz) Eacc [V/m] Hsmax[A/m] Hs
max/Eacc[mA/V]
CST 11.9853 6.2413e8 2.99884e6 4.8
HFSSv10 11.9913 0.464 2.25e-3 4.8
CST
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HFSSv10
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Freq (GHz) Eacc [V/m] Hsmax[A/m] Hs
max/Eacc[mA/V]
a 11.9912 0.4422 2.213 4.8
b 11.9913 0.464 2.25e-3 4.8
a
b
HFSSv10
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Freq (GHz) Eacc [V/m] Hsmax[A/m] Hs
max/Eacc [mA/V]
CST 12.026 1.2758e9 3.37729e6 2.6 (3.65 with 120 phase)
HFSSv10 12.029 0.708 1.88e-3 2.7 (3.65 with 120 phase)
HFSSv12 12.031 0.68 1.85e-3 2.7 (3.64 with 120 phase)
SF 12.029 1.5e6 3967.52 2.6
SF
HFSSv10
HFSSv12CST
Undamped: comparison
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CLIC_G vs CLIC_DDS
3.2Eacc
Hmaxsur
5.0Eacc
Hmaxsur
CLIC_G CLIC_DDS
3.65Eacc
Hmaxsur
5.65Eacc
Hmaxsur
Undamped
Damped
Undamped
Damped 1.56 1.55?
@ 4.0 mm iris radius
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The difference between undamped
Eacc
Hmaxsur and
dampedEacc
Hmaxsur
is due to the circular shape breaking when the coupling waveguide are inserted. Therefore the basic idea is to move up the coupling cell in order to minimize this effect and then, to optimize the joint curvature between the coupling and the cell to better distribute the field
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Facc = 12.53 GHz Facc = 12.97 GHz
2ε 1ε
2ε 1ε
H=5.0 mm H=5.0 mm
H = 2.5 mm H = 2.5 mm
H= Full width of the manifold
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3.33ε
4.35 mA/V
0.6 V/m
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2.7A/m2.7A/m3.4
Eacc
Hmaxsur
3.4Eacc
Hmaxsur
8.3Eacc
Hmaxsur
4Eacc
Hmaxsur
High meshLow mesh
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ab
c
2.1mA/m
ab
c
1.8mA/m
28.4Eacc
Hmaxsur
Low meshHigh mesh
24.4Eacc
Hmaxsur
27.4Eacc
Hmaxsur
23.4Eacc
Hmaxsur
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Final table
Freq (GHz)Hs
max/Eacc [mA/V]Line
Hsmax/Eacc [mA/V]
Color label
CST
Low mesh 11.9834 4 4.3
High Mesh 11.9869 3.8 4.3
HFSSv10
Low mesh 11.9918 4.24 4.28
High Mesh 11.9913 4.23 4.27
HFSSv12 - 11.9927 4.35
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NEXT• Check Aleksej undamped structure• Inclusion of real manifold geometry• Dipole simulations• Studying the effect of major geometric change in
the manifold coupling• If everything will be successful (as we believe),
review the general parameters in order to be more competitive with respect to CLIC_G (e.g. Relaxing the thermal heating and/or reviewing the beam current parameters to have higher efficiency....)
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