Presentation is loading. Please wait.

Presentation is loading. Please wait.

Tuning the Frequency of the RFQ High Energy End. What are the issues? Both input & output ends of RFQ must be independently tuned for 324 MHz Design of.

Published byIndia Nickels Modified over 10 years ago

Similar presentations

Presentation on theme: "Tuning the Frequency of the RFQ High Energy End. What are the issues? Both input & output ends of RFQ must be independently tuned for 324 MHz Design of."— Presentation transcript:

1 Tuning the Frequency of the RFQ High Energy End

2 What are the issues? Both input & output ends of RFQ must be independently tuned for 324 MHz Design of last few modulations undecided: –Stop RFQ at last modulation cell? –Add 5 mm radius onto end of last cell? –Add Crandall cell (for quadrupole symmetry)? –Add Crandall cell and output matcher? Can any/all of these designs be tuned? Matt Easton doing particle tracking for all Note: copper already purchased!

3 Last Few Modulations End RFQ at last cell Add one βλ/4 (half-)Crandall cell Note: Crandall cell should be βλ/2, but wanted to save space… Proper length cell would be similar frequency to those above. 310.5 MHz (can be easily tuned) 312.2 MHz (can be easily tuned)

4 Tuning Frequency of Output End Varying vane cut-back radius of curvature is an easy way to tune output end of RFQ, with or without a Crandall cell.

5 Output Matcher Assumes we use a Crandall cell to create quadrupole symmetry after the last modulation 409.9 MHz (not easily tuned!)

6 2βλ Input Matcher (Final Design)

7 1βλ Output Matcher (test) Much lower capacitance of an output matcher increases local frequency to 410 MHz!

8 Try to Tune Output Matcher No amount of tweaking to inductance and capacitance can bring frequency down to 324 MHz

9 Summary Basic RFQ output end can be tuned Probably good to include a Crandall cell to remove jitter in beam final energy Output matcher not easy to tune… …and not enough copper for one anyway!

Download ppt "Tuning the Frequency of the RFQ High Energy End. What are the issues? Both input & output ends of RFQ must be independently tuned for 324 MHz Design of."

Similar presentations

The Front End Test Stand Collaboration ELECTROMAGNETIC DESIGN OF A RFQ FOR THE FRONT END TEST STAND AT RAL A. Kurup, A. Letchford The RAL front end test.

The Front End Test Stand Collaboration ELECTROMAGNETIC DESIGN OF A RFQ FOR THE FRONT END TEST STAND AT RAL A. Kurup, A. Letchford The RAL front end test.
Imperial College 1 Progress at the RAL Front End Test Stand J. Pozimski Talk outline : Overview Ion source development LEBT RFQ Beam Chopper MEBT.

Imperial College 1 Progress at the RAL Front End Test Stand J. Pozimski Talk outline : Overview Ion source development LEBT RFQ Beam Chopper MEBT.
RFQ Matcher. What am I doing this time?! Concerned that modulations and matcher affect field flatness and frequency These are very small features How.

RFQ Matcher. What am I doing this time?! Concerned that modulations and matcher affect field flatness and frequency These are very small features How.
Effect of RFQ Modulations on Frequency and Field Flatness

Effect of RFQ Modulations on Frequency and Field Flatness
MEBT Design Considerations The beam energy in the MEBT is sufficiently low for the space charge forces to have a considerable impact on the beam dynamics.

MEBT Design Considerations The beam energy in the MEBT is sufficiently low for the space charge forces to have a considerable impact on the beam dynamics.
Final Design of a CW Radio-Frequency Quadrupole (RFQ) for the Project X Injector Experiment (PXIE)* Abstract: The Project X Injector Experiment (PXIE)

Final Design of a CW Radio-Frequency Quadrupole (RFQ) for the Project X Injector Experiment (PXIE)* Abstract: The Project X Injector Experiment (PXIE)
Power e Lab PowerELab Limitedwww.powerelab.com 1 An Active EMI reduction IC WT6001 POWERELAB LIMITED A Power Converter Technology Provider.

Power e Lab PowerELab Limitedwww.powerelab.com 1 An Active EMI reduction IC WT6001 POWERELAB LIMITED A Power Converter Technology Provider.
EMLAB 1 4. Linear wire antenna. EMLAB 2 Simulation of dipole antennas.

EMLAB 1 4. Linear wire antenna. EMLAB 2 Simulation of dipole antennas.
EMMA Upgrade: Slow Acceleration with Low-Frequency Cavity J. Scott Berg Brookhaven National Laboratory 12 March 2010.

EMMA Upgrade: Slow Acceleration with Low-Frequency Cavity J. Scott Berg Brookhaven National Laboratory 12 March 2010.
Radio Frequencies. Oscillator Feedback loop Oscillator As the output of the amplifier is fed to the input, feedback or oscillation occurs.

Radio Frequencies. Oscillator Feedback loop Oscillator As the output of the amplifier is fed to the input, feedback or oscillation occurs.
Longitudinal Expansion of RFQ Vane Ends at Section-to-Section Interface.

Longitudinal Expansion of RFQ Vane Ends at Section-to-Section Interface.
Modifications Required on Model Before Meshing & Solving Slice up to define mesh in different areas –Transversely separate vane-tip region (about 16x16mm.

Modifications Required on Model Before Meshing & Solving Slice up to define mesh in different areas –Transversely separate vane-tip region (about 16x16mm.
Part2: Cavities and Structures Modes in resonant cavity From a cavity to an accelerator Examples of structures JUAS 2015 Linacs-JB.Lallement - JUAS 20151.

Part2: Cavities and Structures Modes in resonant cavity From a cavity to an accelerator Examples of structures JUAS 2015 Linacs-JB.Lallement - JUAS
Status of the RFQ (i.e. the 4-vane cold model) Ajit Kurup UKNF Meeting 3 rd October 2007.

Status of the RFQ (i.e. the 4-vane cold model) Ajit Kurup UKNF Meeting 3 rd October 2007.
RFQ CAD Model Tolerance Studies Simon Jolly 14 th December 2011.

RFQ CAD Model Tolerance Studies Simon Jolly 14 th December 2011.
V.Daniel Elvira Status Report on Cooling Simulations using GEANT4 Motivation: Explore a realistic design of a 44/88 MHz based cooling channel for a -factory.

V.Daniel Elvira Status Report on Cooling Simulations using GEANT4 Motivation: Explore a realistic design of a 44/88 MHz based cooling channel for a -factory.
Lattice calculations: Lattices Tune Calculations Dispersion Momentum Compaction Chromaticity Sextupoles Rende Steerenberg (BE/OP) 17 January 2012 Rende.

Lattice calculations: Lattices Tune Calculations Dispersion Momentum Compaction Chromaticity Sextupoles Rende Steerenberg (BE/OP) 17 January 2012 Rende.
SPEED CONTROL OF THREE PHASE INDUCTION MOTOR WITH ENERGY SAVING

SPEED CONTROL OF THREE PHASE INDUCTION MOTOR WITH ENERGY SAVING
RF Cavity of CIS Xiaoying Pang Mar. 12 th, 2007 IUCF.

RF Cavity of CIS Xiaoying Pang Mar. 12 th, 2007 IUCF.
Performance of the DZero Layer 0 Detector Marvin Johnson For the DZero Silicon Group.

Performance of the DZero Layer 0 Detector Marvin Johnson For the DZero Silicon Group.

Similar presentations

Ads by Google