Bead Pulling MeasurementBead-Pulling Measurement (Multi-cell Cavity Field Flatness)

Prepared bySSung-Woo Lee

Managed by UT-Battellefor the Department of Energy

OutlineOutline

IntroductionIntroductionBead-Pulling MeasurementPerturbation TheoryPerturbation TheoryMethodsTuning MechanismTuning MechanismExamplesConclusionConclusion

IntroductionIntroduction

Accelerating mode of multi-cell cavities is -Accelerating mode of multi cell cavities is mode. Cells operate at same frequency with out-of-p q yphase from neighboring cell.Frequency deviation of each cell must be q yquantified.Mechanical tuning required.

Bead-Pulling MeasurementBead Pulling MeasurementIn manufacturing or tuning multi-cell cavities it is required to investigate the field profile inside cavities.The field can be sampled by introducing a p y gperturbing object and measuring the change in resonant frequency.The object must be so small that the field do notThe object must be so small that the field do not vary significantly over its largest linear dimension: it is a perturbation method.Phase deviation is much easier to observe thanPhase deviation is much easier to observe than frequency change especially for small perturbation.

Perturbation TheoryPerturbation Theory

Finding approximate solution starting from theFinding approximate solution starting from the exact solution adding small deviation.

r

Change of the field profile by very small bead (stored energy change) produces the (sto ed e e gy c a ge) p oduces t efrequency deviation.

32 21 1U r E H

2 20 0 0 0

0 2 2r r

r r

U E HU U

= = + + +

Bead Pull SetupBead Pull Setup

E H

o

U UU

= 3 3

12

ro o

r

F a a

= +

The shape of the bead will distort the field in the vicinity of the bead so a geometrical form factor must be used. Due to the H field is zero on the axis of the cavity where the small bead movingmoving, 3

2 2

2o

o b bo

a E HU

= +

Bead PullsBead PullsFor small perturbations, shifts in the peak of the cavity response is hard to measure.Shifts in the phase at the unperturbed resonant frequency are much easier to measurefrequency are much easier to measure.

1 90

0.5

0.75

peda

nce

0

45

e (d

egre

es)

0.25

Im

45

Pha

s

2 1.5 1 0.5 0 0.5 1 1.5 20

UnperturbedShifted

Frequency2 1.5 1 0.5 0 0.5 1 1.5 290

UnperturbedShifted

Frequency

Measurement Setup

Bead p ll set p for phase shift meas rement

Measurement Setup

Bead pull setup for phase shift measurement

S21=~-44.5dB

Phase Measurement Result (5 )

Bead Pull Measurement (MBp4)

(5 measurements)Procedure

Measurement on MBP4 (5 times: MBP4_1~5)

Bead Pull Measurement (MBp4)

0

21. Pick and set the desired

mode () as CW frequency2. Calculated Q factor

Oct. 29 2007

-6

-4

-2

degr

ee)

3. Start bead pulling motor at constant speed

4. Sample phase data and record

-12

-10

-8

Phas

e(d

MBp4_1MBp4_2MBp4_3MBp4_4MBp4_5

record5. Translate phase into

frequency shift

-16

-14

0 200 400 600 800 1000

0 0tan ( )2

pf f ff Q

=

position0 2f Q(fp: perturbed frequency)

Frequency Shift data (2 measurements)

Bead Pull Measurement (MBp4)

803.942f MB 4 4

(2 measurements)

803.938

803.94

freq_MBp4_4freq_MBp4_5

ff00=803.93875MHz=803.93875MHz

ff00=803.94MHz=803.94MHzQ=7845Q=7845

803.934

803.936

y(M

Hz)

Q=7795Q=7795

803.93

803.932

freq

uenc

y

~12KHz

0 0tan ( )pf f f =

803.926

803.928

0 012f f

0 2f Q=

(fp: perturbed frequency)

803.9240 200 400 600 800 1000

position

0 5

0

0.012 1.49 10803.94

pf ff

= =

Direct Frequency Measurement

~12KHz

It is difficult to get frequency shift data directly from frequency sweeping mode in Vector Network Analyzer (VNA) for very smallperturbation. Phase locking (PLL-VCO) is required to track the frequency deviation at -modefrequency deviation at -mode.

Direct Frequency Measurement(using PLL system)

Multi-cell Cavity TuningMulti cell Cavity Tuning

Individual cell tuningIndividual cell tuning

ACCd

=d

1fC

C

Manual Tuning ExampleManual Tuning Example

Individual cell manual tuning (FermiLab)Individual cell manual tuning (FermiLab)

3rd Harmonic Module mini-Review. T. Khabiboulline. 11.08.2005.

Automatic Tuning Example I(Bead-pull setup integrated)

PC-controlled bead pull measuring device

Photograph of the cavity tuning machine with integrated bead pull measuring device.

3D-CAD-Model of the tuning machineUsed to push and pull each cell to the right frequencies.

Automatic Tuning Example II(Bead-pull setup integrated)

ConclusionConclusion

Multi-cell(N) accelerating cavities have N ( ) gdegenerated modes. (mode is desired)The modes split when the coupling (k) increases

d/ N dand/or N deceases.Each cell has its own resonant frequency. (need to be tuned)be tuned)Frequency deviation can be monitored by bead-pulling based on perturbation theory.Phase measurement can be effectively used under small perturbation.Frequency correction can be done by mechanicalFrequency correction can be done by mechanical tuning(squeezing/extending) procedure.