On behalf of: Sang-hoon Kim Zack Conway Mark Kedzie Tom Reid Ben Guilfoyle
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1 On behalf of: Sang-hoon Kim Zack Conway Mark Kedzie Tom Reid Ben Guilfoyle
2
3 $SSOLFDWLRQV IRU $1/ &RD[LDO &RXSOHUV $7/$6 0+] 0RGXOH )5,% 4:5V FRIB SRF production status: cavities, ancillaries SRF17, T. Xu $7/$6 0+] 0RGXOH 3,3,, +:5V Half-wave Cryomodule for Proton Improvement Project 2 at Fermilab, SRF17, Z. Conway $GYDQFHG 3KRWRQ 6RXUFH 8SJUDGH A Superconducting Harmonic ic Cavity System for the ANL Advanced Phton Source SRF17 Sang-hoon Kim 0LNH.HOO\ WK,QWHUQDWLRQDO &RQIHUHQFH RQ 5) 6XSHUFRQGXFWLYLW\ RQGXFWLYLW\
4 Facility/ Project ATLAS FRIB PIP2IT MHz APS-U Coupler Frequency type MHz Coax MHz Coax 50 Coax MHz Coax Outer diameter Stroke Qext Power Notes 4 cm 7 cm 2x kw Standing wave 4 cm 3.4 cm 3x kw Standing wave 5 cm 2.5 cm 3x kw Standing wave 8 cm 4 cm 6x kw Travelling wave Cost range from ~$15 to $50 K per complete coupler
5 Hardware notes Operations Materials: 316/321 stainless, copper (OFHC), alumina, copper/gold braze alloy Two planar ceramic windows, one warm, one cold Single manufacturer for window assembly (MPF), metallized ceramic (WESGO AL300, 97.6% Al 2 O 5 ) Copper plating(~20 micron) with nickel strike onto a formed SS bellows adjustability and thermal transition to cavity Working with 3 rd vendor on copper plating; adhesion has been fine; issue is purity/losses Variable coupler conditioning, accurate cavity measurements, optimize tuning window for cavity phase control, accommodate different beam loads, passive phase/amplitude control Forced flow LN2 or He gas cooling on outer diameter of cold window Conductive (passive) cooling of center conductor through alumina windows Air cooling at warm window (outside the cryomodule) Diagnostics based on thermometry; silicon diodes/cernox, gallium-arsenide optical thermometers; dual directional couplers Challenge: (moving) thermal transitions with lots of different materials and high power flow Experience: ~2 dozen couplers built/tested (4 different types, the first 4 kw version in operation for several years, FRIB is building >100 of 2 nd 4 kw coupler)
6 Issue: No integral RF window Issue(s):cumbersome, fragile Issue(s):cumbersome, fragile, power handling
7 'HVLJQ $SSURDFK 0RVW UHFHQW H[DPSOH N: &: FRXSOHU IRU *+] +DUPRQLF &DYLW\ µ:dup ZLQGRZ DLU FRROHG. WR. WUDQVLWLRQ FRSSHU RQ VWDLQOHVV /LTXLG QLWURJHQ. FLUFXODWLQJ WR. YDULDEOH EHOORZV FRSSHU RQ VWDLQOHVV 0LNH.HOO\ WK,QWHUQDWLRQDO &RQIHUHQFH RQ 5) 6XSHUFRQGXFWLYLW\ GXFWLYLW\
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10 Figures from S.Kutsaev (ANL/presently Radiabeam)
11 Calculation from G. Waldschmidt (ANL) Concept and figures from S.H. Kim (ANL) 200 ma e- beam Measured data from S.H. Kim (ANL) Trapped TE11- like 1.6 GHz using symmetrical antenna Conversion to TEM 1.6 GHz using wedge antenna
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12 )DEULFDWLRQ $VVHPEO\ /LIHWLPH HPR on copper plated surfaces 0LNH.HOO\ WK,QWHUQDWLRQDO &RQIHUHQFH RQ 5) 6XSHUFRQGXFWLYLW\
13 Figure from R.Fischer (ANL)
14 80 mm diameter bellows 2.4 GHz 2.7 GHz Simulation =5.8x10 7 S/m Pillbox Quality Factors/1000 Bellows #1 Vendor A Before Baking Baked (500 o C, 1 hr) Bellows #2 Vendor A Before Baking Baked (450 o C, 1.5 hr) Bellows Vendor B No Baking
15 Figure adapted from Analysis of Multipacting in Coaxial Lines, University of Helsinki, PAC 1995
16 Initial design for (162.5 MHz) thermal transition 3 mm ~15% enchancement Present design (162.5 MHz) (arbitrarily) large enhancement at sharp corner Surface current (green~ kw SW) Location of damage on central conductor aligns with slot location High-E Standing wave fields High- B
17 DC block capacitor Electrical isolation 5 micron thick Kapton film ~+300 V This approach suggested to us by FNAL reflection MHz transmission
18 Bias voltage (V) Measurement: Onset of multipacting as bias voltage lowered Simulation: Secondary emission current Current [A] Figure from G.Romanov (FNAL) Traveling wave power [kw]
19
20 Several ways to extend the present approach Have looked at double-window 160 mm diameter, 50 design at SRF 2013, 75 kw with only passive cooling of cent. cond., but not at MHz as in that study Several examples of CW couplers demonstrated from 100 kw up to ~1 MW (e.g. KEKB, APT) Further work to address future needs for use with high-power, high-gradient cavities Avoid multipacting through design choices (e.g. 160 mm diameter, 50, 800 MHz avoids bands up to 1 MW) Incorporate DC bias and active cooling of the central conductor in two window design Substantial and sustained coupler development will be needed ADS, ERLs, FCC, CEPC
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