1 alexander mikhailichenko cornell lepp, ithaca, ny 14853 linear collider workshop of americas...
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Alexander MikhailichenkoAlexander MikhailichenkoCornell LEPP, Ithaca, NY 14853
Linear Collider Workshop of Americas Linear Collider Workshop of Americas ALCPG , September 30, 2009ALCPG , September 30, 2009
Albuquerque NM Albuquerque NM
LITHIUM LENS STUDIES
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FL
HRaI
2.0
)(2
For given focal distance F, radius a, length L, the current required is
For F~1cm, a~0.5cm, L~0.5cm, E~20MeV I~166kA
Windows made from BN, BC or Be
W is also under consideration for entrance window
Li also serves as a coolant for windows
Positrons and Current moving co-directionally
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A.Mikhailichenko,” Lithium Lens (I)”, CBN -09-4, Aug 2009, 17pp.
http://www.lepp.cornell.edu/public/CBN/2009/CBN09-4/CBN%2009-04.pdf
All references are there
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View from other side
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Variants of current duct
Current duct must be able to transfer ~ 150 kA in ~4 ms pulse with repetition rate up to 10 Hz
Cables with non organic insulation
Strip-lineLi Lens
Li lens
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Lithium loop
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Scaled view on vacuumed feed through and lens; vacuum case not shown
Bellows
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Lens itself
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Li lens with current duct attached
Ceramic washes
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Feed through in detail
Rim target
System with two bellows excludes forces from atmospheric pressure;
Position adjustment serves for optimization the distance between target and lens
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Can be used for compensation of spherical aberrations
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Windows attachment technique
Best direction of flow will be established by modeling
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To the choice of material for windows
Heat capacity, Heat conductivity – functions of temperature; this need to be taken into account
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Flange with recession has faster relaxation time
Dimensions in cm
TcQTk V )(
ms2.4105.22
82.184.1 3
Equation for thermal diffusion
defines time of relaxation from its characteristic
For Be: k=2 W/cm/oK, ρ=1.84g/cm3 , cV =1.82 J/g/oK
If δ=0.05cm
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k
c
c
k
c
dt
k
dx V
VV
This gives ~20% temperature drop within train for Be
For Li thermal skin-layer for 1 msec time goes to
cmc
k
V
021.0001.06.3533.0
848.0
x
Beam pattern
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1515E-166 REJECTED Ti TARGET
LOSSES FOR DIFFERENT MATERIAL OF TARGET
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KONN can calculate now the energy deposition and temperature rise in target and in Li lens at any point.
Distance between target and lens serves for enlargement the spot size on the entrance window
Target could be combined with entrance flange
KONN –Monte-Carlo code for positron production starting from undulator
Best for polarization
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Losses calculated with KONN compared with systematic calculations done with GEANT 3.21 by A.Dubrovin
M.Dubrovin,” Energy Deposition in the Li Lens”, Note on Nov 18, 2007,17pp.
GOOD AGREEMENT
Also with calculations with FLUKA:
S.Riemann, A.Schälicke, A.Ushakov, D.Andrienko, ”Activation and Capture simulation”, ILC Positron Source
Collaboration Meeting”, October 29, 2008, 16 pp.
Also considering calculations with GEANT4:
W.Liu, W.Gai ,”Update on Be Window Thermal Issues”, HEP, ANL, May 16,2007
In this publication the gamma beam only was considered; no cooling; Be survives ~20sec
Our numbers: Nγtot =101
1.55 MeV/e (W)
1.44 MeV/e
1.61 MeV/e
1.05 MeV/e
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TEMPERATURE ALONG THE W TARGET FOR DIFFERENT RADIUSES
per 1013 initial electrons
Edge of collimator
Each particle radiates 2.76 GeV in undulator
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Rim W target;
R=50 cm
f=50 Hz
K=0.92
Eff=1.6
Effp=32%
Lund=35m
λu=1.15cm
Dis=300 m
G=45kG/cm
I=110kA
Rcoll=0.5cm
Collimator
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2020
Now the target is not spinning
Collimator
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K=0.44; Eff=1.58; Effp=67%; Rcoll=0.06; Lamb=1cm;Lund=170m; 150 GeVEach particle radiates 1.07 GeV in undulator
Moving target Stationary target
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RBe entr.
Li
Be exit
Temperature in lens
K=0.92; λ=1.15; Eff=1.6; Effp=32%; Undulator length=35m; Distance to target=300m
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NEW TYPE OF COMMUTATORS FOR HIGH CURRENT
S.A. Belyaev, V.G.Bezuglov, V.V.Chibirikin, G.D.CHumakov, I.V.Galakhov, S.G.Garanin, S.V.Grigorovich, M.I.Kinzibaev, A.A.Khapugin, E.A.Kopelovich, F.A.Flar, O.V.Frolov, S.L.Logutenko, V.A.Martynenko, V.M.Murugov, V.A.Osin, I.N.Pegoev, V.I.Zolotovski, ”New Generation of High-Power Semiconductor Closing Switches for Puled Power Applications”, 28 ICPIG, July 15-20, 2007, Prague, Czech Republic, Topic#17, pp.1525-1528.
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General parametersGeneral parametersEnergy of primary beamEnergy of primary beam ~150 GeV-350GeV~150 GeV-350GeV
Undulator period Undulator period 10-12 mm 10-12 mm K K factor, factor, 0.4-10.4-1
Undulator length Undulator length 200 m200 mEfficiency , Efficiency , 1.5 1.5 Polarization Polarization 65%65%Target W/TiTarget W/Ti 1.75 mm/14.8 mm1.75 mm/14.8 mm
Energy of quanta Energy of quanta ~9-20 MeV~9-20 MeVDistance to the targetDistance to the target 100-300 m100-300 m
LensLens Feeding current, Feeding current, II <150 kA<150 kAField at surface, Field at surface, HHmm 43 kG43 kG
Gradient Gradient 62kG/cm62kG/cmPulsed powerPulsed power ~200kW~200kW
Average powerAverage power ~4kW~4kWPulsed duty , Pulsed duty , <4msec<4msec
Lens diameter, 2Lens diameter, 2aa 1 cm1 cmLength, Length, LL 0.5-1 cm**0.5-1 cm**
Axial pressure, Axial pressure, PP00 74atm (for 74atm (for LL=0.5cm)=0.5cm)
Temperature gain per trainTemperature gain per train 170170ooC at 150kAC at 150kA
2/2/ mceHK
ee /
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SUMMARY
● In KONN, to efficiency calculations, added the possibility to calculate losses and temperature gain normalized to initial electron beam population.
● With KONN there were calculated conversion scenarios at 150, 250, 350 GeV with K=0.29–0.92 including thermal effects; at every energy efficiency ≥1.5, Pol >65% obtained.
● Chosen design of Li lens; it allows easy exchange of windows, lens position in housing could be adjusted with respect to the target and acceleration
structure .
● General conclusion is that spinning Tungsten target survives irradiation in all scenarios including K=0.92 .
● Tungsten target could be combined with the entrance window of Lithium lens.
● All necessary preparations done for further modeling of dynamic heating processes such as shock waves, cyclic expansions, Li flow etc.
● New round of optimizations with thermal effects will be done
● Solenoidal lens will be implemented in KONN also
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Backup slidesBackup slides
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Recent calculation of Lithium lens done with FlexPDE© code at Cornell
Time dependent 3D calculations
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Li lens can be used with any target: liquid metal (Pb-Bi, Hg) or Ti rim
Right after the target located Aluminum made accelerating structure immersed in solenoidal magnetic field. Sectioned solenoid wound with Al conductor. Sections supplied with reversed polarities
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