Presentation is loading. Please wait.

Presentation is loading. Please wait.

Horizontal Test Stands and CC2 Results Andy Hocker Testing an alternative ILC cavity design at USPAS (Q 0 =2.23E+02)

Published bySabrina Pitts Modified over 8 years ago

Similar presentations

Presentation on theme: "Horizontal Test Stands and CC2 Results Andy Hocker Testing an alternative ILC cavity design at USPAS (Q 0 =2.23E+02)"— Presentation transcript:

1 Horizontal Test Stands and CC2 Results Andy Hocker Testing an alternative ILC cavity design at USPAS (Q 0 =2.23E+02)

2 Fermilab Feb 13-14, 2007DOE SCRF Review2 The need for HTS PRODUCTION NEED: After passing a vertical test, much cavity handling ensues –Welding to He vessel, installation of coupler/tuners… Until we perfect this process, best to make sure cavities survive it before they’re buried in a CM –Figure of merit: E acc and Q 0 within spec R&D NEED: Plenty of ideas on the table for ways to address cavity tuning, microphonics, Lorentz force detuning, high power RF processing… HTS serves as a bench where these ideas can be tested

3 Fermilab Feb 13-14, 2007DOE SCRF Review3 Components of HTS Shielding cave Vacuum vessel (a one-cavity cryomodule) 1.8 K cryogenic plant/distribution Clean vacuum systems for cavity/coupler High-power (at least ~300 kW) pulsed RF (klystron/modulator), LLRF control system Cavity diagnostics –X-ray detectors –Dark current detectors (Faraday cups) –Thermometry DAQ and controls system Much of this is already in place at Meson Detector Building (MDB)

4 Fermilab Feb 13-14, 2007DOE SCRF Review4 Capture Cavity 2 Nine-cell TESLA cavity from DESY shipped to FNAL for A0PI energy upgrade Horizontal testing infrastructure built up at MDB to ensure that it survived the trip –…and with an eye toward HTS CC2 operations began in FY06, quite successful: –CC2 peak gradient: 31.3 MV/m (Q 0 ~ 1.5e10) Bodes well for HTS –Most of the RF and cryo infrastructure will be the same

5 Fermilab Feb 13-14, 2007DOE SCRF Review5 Other CC2 results Sustained 800  s “flat-top” of ~31 MV/m, stable LLRF feedback control Automated coupler processing Dynamic heat load studies (Q 0 =1.5e10) X-rays observed at full gradient

6 Fermilab Feb 13-14, 2007DOE SCRF Review6 HTS work in FY06 New cave and cryogenic transfer lines in MDB New cryostat for easy cavity installation/removal Cryostat installation in MDB underway, commissioning to follow

7 Fermilab Feb 13-14, 2007DOE SCRF Review7 Needed HTS Capacity ProgramFY07FY08FY09FY10 Capacity Needed/yr by FY10 Horizontal Testing Fermilab-6Fermilab-24 Fermilab-72 72 HTS testing cycle is ~2 wks/cavity –At peak performance, 1 HTS = 24 cavities/yr Proposal for “HTS2” --- a second cryostat long enough to house two cavities –Increase throughput with minimal incremental cost –Some unique R&D opportunities (cavity+magnet, driving multiple cavities w/ one RF source) –Requires new RF/cryo distribution, clean vacuum systems, instrumentation, controls

8 Fermilab Feb 13-14, 2007DOE SCRF Review8 Factorizing HTS and ILC Except for the 1.3 GHz RF system, HTS is not very ILC-specific A 1.8 K fridge with ports for RF, vacuum, and instrumentation Example: FY07 will see HTS testing 3.9 GHz SCRF cavities for DESY’s VUV-FEL –Modified a few cavity/coupler support structures –Bought a 3.9 GHz klystron and some waveguide –Downconverter for LLRF system –That’s about it! The use of HTS for R&D on cavity “accessories” (couplers, tuners, etc.) has wide applicability

9 Fermilab Feb 13-14, 2007DOE SCRF Review9 Cost

10 Fermilab Feb 13-14, 2007DOE SCRF Review10 Conclusions HTS plays a key role in developing high- performance ILC cryomodules Provides Fermilab with unique opportunity for studying SCRF cavities and their accoutrements under high-power pulsed RF Infrastructure at MDB already highly developed Capture Cavity 2 program a successful demonstration of laboratory’s horizontal testing capabilities

Download ppt "Horizontal Test Stands and CC2 Results Andy Hocker Testing an alternative ILC cavity design at USPAS (Q 0 =2.23E+02)"

Similar presentations

Overview of SMTF RF Systems Brian Chase. Overview Scope of RF Systems RF & LLRF Collaboration LLRF Specifications for SMTF Progress So Far Status of progress.

Overview of SMTF RF Systems Brian Chase. Overview Scope of RF Systems RF & LLRF Collaboration LLRF Specifications for SMTF Progress So Far Status of progress.
ILCTA-MDB RF Power Status 9/21/06 Reid 1 ILCTA-MDB Status 1.3 GHz RF Power Meson Detector Building 3.9 GHz RF Power A0 Building September 21, 2006 [John.

ILCTA-MDB RF Power Status 9/21/06 Reid 1 ILCTA-MDB Status 1.3 GHz RF Power Meson Detector Building 3.9 GHz RF Power A0 Building September 21, 2006 [John.
SRF Beam Test Facility at NML Jerry Leibfritz April 26, 2010.

SRF Beam Test Facility at NML Jerry Leibfritz April 26, 2010.
Superconducting Spoke Resonator Cavities and Cryomodules

Superconducting Spoke Resonator Cavities and Cryomodules
FNAL Superconducting RF Program Sergei Nagaitsev.

FNAL Superconducting RF Program Sergei Nagaitsev.
SRF Cryomodule Assembly Facility Plans Tug Arkan AAC, May 10-12, 2005.

SRF Cryomodule Assembly Facility Plans Tug Arkan AAC, May 10-12, 2005.
Piezo Studies and Temperature Measurements Ruben Carcagno May 11, 2005.

Piezo Studies and Temperature Measurements Ruben Carcagno May 11, 2005.
Capture Cavity 2 Update Tim Koeth April 3 rd Testing at 4.5K.

Capture Cavity 2 Update Tim Koeth April 3 rd Testing at 4.5K.
RF Unit Test Facility at NML & CM1 Test Plan Bob Kephart Fermilab IWLC-10 October 20, 2010.

RF Unit Test Facility at NML & CM1 Test Plan Bob Kephart Fermilab IWLC-10 October 20, 2010.
An SRF Single Cavity Horizontal Test Facility Tom Peterson, Fermilab May 10, 2005.

An SRF Single Cavity Horizontal Test Facility Tom Peterson, Fermilab May 10, 2005.
Linac Front-End R&D --- Systems Integration and Meson Lab Setup

Linac Front-End R&D --- Systems Integration and Meson Lab Setup
ILCTA_NML Progress at Fermilab Jerry Leibfritz September 10, 2007.

ILCTA_NML Progress at Fermilab Jerry Leibfritz September 10, 2007.
Overview of the ILC and SRF Program (With an emphasis on Px) Shekhar Mishra ILC & SRF Program Fermilab.

Overview of the ILC and SRF Program (With an emphasis on Px) Shekhar Mishra ILC & SRF Program Fermilab.
E. KAKO (KEK) 2010' Sept. 10 KEK Global Design Effort 1 Lorentz Force Detuning Eiji Kako (KEK, Japan)

E. KAKO (KEK) 2010' Sept. 10 KEK Global Design Effort 1 Lorentz Force Detuning Eiji Kako (KEK, Japan)
SRF Cryomodule 2 Cavity Test Results Andy Hocker TD/SRF Dev Dept. All Experimenters Meeting, 10-OCT-2011.

SRF Cryomodule 2 Cavity Test Results Andy Hocker TD/SRF Dev Dept. All Experimenters Meeting, 10-OCT-2011.
Americas S0 Plan in USA Shekhar Mishra Fermilab/GDE US Main Linac Cavity and Cryomodule WBS.

Americas S0 Plan in USA Shekhar Mishra Fermilab/GDE US Main Linac Cavity and Cryomodule WBS.
F Status and Plans for SRF Facility Sergei Nagaitsev May 18, 2007.

F Status and Plans for SRF Facility Sergei Nagaitsev May 18, 2007.
ILC R&D at Fermilab Robert Kephart. ILC Americas f Fermilab May 15-18, 2006FY06 DOE Annual Review2 Outline Fermilab ILC Goals Fermilab’s role in the GDE.

ILC R&D at Fermilab Robert Kephart. ILC Americas f Fermilab May 15-18, 2006FY06 DOE Annual Review2 Outline Fermilab ILC Goals Fermilab’s role in the GDE.
STF Plan & Schedule H. Hayano, KEK. Superconducting RF Test Facility Comprehensive Test Facility dedicated to ILC SC-RF R&D (expandable to FEL, ERL) for.

STF Plan & Schedule H. Hayano, KEK. Superconducting RF Test Facility Comprehensive Test Facility dedicated to ILC SC-RF R&D (expandable to FEL, ERL) for.
The ILCTA_MDB Horizontal Test Stand for SRF Cavities Andy Hocker FNAL-TD AEM, 25-JUN-2007.

The ILCTA_MDB Horizontal Test Stand for SRF Cavities Andy Hocker FNAL-TD AEM, 25-JUN-2007.

Similar presentations

Ads by Google