dog-leg status i. syratchev for the clic team 29.01.2014
DESCRIPTION
Dog-leg Status I. Syratchev for the CLIC team 29.01.2014. Introduction. U nloaded. CLIC nominal. Increasing current. Loaded (CLIC). Gradient along the structure. Unloaded. - PowerPoint PPT PresentationTRANSCRIPT
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Dog-leg Status
I. Syratchev for the CLIC team
29.01.2014
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Introduction
Unloaded
Loaded (CLIC)
Testing of accelerating structure with nominal beam loading is a missing block in our testing program. Such a test will be done using CTF3 (1.2 A) drive beam and RF power delivered from X-box1 (90 MW) via modified 30 GHz low loss transfer line (60MW).The main target of this experiment is to compare loaded and unloaded accelerating structure breakdown trip rate.
Incr
easi
ng c
urre
nt
Gradient along the structure
CLIC nominal
Unloaded
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Accelerating gradients achieved in tests. Status: 4-9-2012
loaded
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Location of the Dog-leg experiment
structure
Former 30 GHz RF transfer line X-box1
Beam dog-leg
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Structure under test:CERN’s T24 (12WNDSvg1.8 KEK N1)No damping
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Dog-leg experiment phase #1 (beam only)
Drive beam, 1-3A, 100-50 MeV
Main objective of this phase: To establish routine beam transportation through the structure without losses. To integrate RF signal acquisition and the beam control systems.
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Beam direction
IN
OUT
T24 is installed in dog-leg…
Dog-leg experiment phase #1.
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Dog-leg experiment phase #1 results.
May 2013
Dec. 2013
The measurement fully supported expected performance!
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Complete Dog-leg test RF network layout (expected RF transfer efficiency ~0.75)
RF
Beam
Mode converter type#2
50 mm circular waveguide
The number of 12 GHz new RF components were fabricated by CERN and CEA to re-adjust ‘old’ 30 GHz low losses transfer line to the new frequency.
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H10-> H01 mode converters and tapers #1 (CEA)
H10-> H01 Jog mode converters #2 (CEA)
New RF components (closer view)
Compact RF pumping port with high vacuum conductivity.
RF/vacuum gate valve and pumping port
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Dog-leg waveguide line installation status.
All the components are installed. Connected to accelerated structure and closed for vacuum. Vacuum leaks checked (tight).
Ready to be connected to XBOX1.
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RF power transmission measurementsS11 data
Short circuit(+offset)
Matched load
S21 Reconstructed(Xiaowei Wu)
Transmission (simulated)
Reflection
• The measured RF power transmission efficiency is 80%.• Reflection is below -27dB.• The group delay time is 75 ns (~23.5 m).
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CTF2 CTF3Xbox1 wall
0.87 0.8
Overall power transmission efficiency
• The overall measured RF power transmission efficiency is 67%.• The round group delay time is 230 ns (~35 m).• To provide nominal CLIC RF pulse, XBOX1 klystrons needs to deliver 36 MW x 1.5s
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S. Doebert,J.L. NavarroS.F. ReyL. Timeo F. Tecker T. Wisznowski
This progress is a result of coherent efforts of many colleagues:
CTF3
M. FilippovaD. GudkovP. GuyardA. OlyuninS. LebetG. RiddoneA. SolodkoP. De SouzaA. Samochkine
RF/PM XBOX
A. Degiovanni B. WoolleyX. Wu
TE-VCS
E. Paju
Special thanks to F. Peauger (CEA, France) – mode converts; S. Kuzikov (INP, Russia) – circular waveguides line.