B. Lee Roberts, PSI - 15 August 2006 - p. 1/54 The Muon: A Laboratory for Particle Physics B.L....

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B. Lee Roberts, PSI - 15 August 2006 - p. 1/54

The Muon:A Laboratory for Particle Physics

B.L. RobertsDepartment of Physics

Boston University

roberts @bu.edu http://physics.bu.edu/roberts.html

B. Lee Roberts, PSI - 15 August 2006 - p. 2/54

Outline

• Introduction to the muon• Selected weak interaction parameters• Magnetic and electric dipole moments• Lepton Flavor Violation• Summary and conclusions.

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The Muon: Discovered in 1936

Discovered in cosmic rays by Seth Neddermeyer and Carl Anderson

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Confirmed by Street and Stevenson

It interacted too weakly with matter to be the “Yukawa” particle which was postulated to carry the nuclear force

B. Lee Roberts, PSI - 15 August 2006 - p. 5/54

The discovery of the muon was abig surprise…

• Lifetime ~2.2 s, practically forever

• 2nd generation lepton

• mme= 206.768 277(24)

• produced polarized– in-flight decay: both “forward”

and “backward” muons are highly polarized

• Paul Scherrer Institut has 108 /s in a beam

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Death of the Muon

• Decay is self analyzing

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What have we learn from the ’s death?

• The strength of the weak interaction– i.e. the Fermi constant GF (more properly G)

• The fundamental nature of the weak interaction– i.e. is it scalar, vector, tensor,

pseudo-scalar, pseudo-vector or pseudo-tensor?

• Lepton flavor conservation in -decay

• VEV of the Higgs field:

• Induced form-factors in nuclear -capture

B. Lee Roberts, PSI - 15 August 2006 - p. 8/54

from radiative corrections

A precise measurement of + leads to a precise determination of the Fermi constantGF

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B. Lee Roberts, PSI - 15 August 2006 - p. 10/54

helped predict the mass of the top quark

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helped predict the mass of the top quark

Predictive power in weak sector of SM. Difference between the charged current and neutral current propagators The radiative correction shown above depends on mt

2. Comparisons of charged, vrs. neutral currents gives information on mt.

B. Lee Roberts, PSI - 15 August 2006 - p. 12/54

The Electro-Weak Working Group Fits:

Predicted

Input: GF (17 ppm), (4 ppb at q2=0), MZ (23 ppm),

Measured:

from

GF

The Lan experiment at PSI will accumulate 1012 -decays and measure G to ~1 ppm. If LHC provides a Higgs Mass, then the precision of the confrontation with the SM will greatly improve

B. Lee Roberts, PSI - 15 August 2006 - p. 13/54

The Weak Lagrangian (Leptonic Currents)

• Lepton current is (vector – axial vector) “(V – A)”

• It might have been: V±A or S±V±A or most general form:

Scalar ± Vector ± Weak-Magnitism ± PseudoScalar ± Axial-Vector ± Tensor

There have been extensive studies at PSI by Fetscher,

Gerber, et al. to look for other couplings in muon decay. Search continues with TWIST at TRIUMF.

At present, none have been found.

B. Lee Roberts, PSI - 15 August 2006 - p. 14/54

If the Strong Interaction is Present

• Then we have a more general current, which in principle can have 6 induced form factors in the current.

B. Lee Roberts, PSI - 15 August 2006 - p. 15/54

Leptonic and hadronic currents

• For nuclear capture (and also in -decay) there are induced form-factors and the hadronic V-A current contains 6 terms.– in capture the induced pseudoscaler term

becomes important

2nd classvector weak magnitism scalar

axial vector pseudoscalar tensor

- decay

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The Muon Trio:• Muon Magnetic Dipole Momoment a chiral

changing

• Muon EDM

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The Muon Trio:• Muon Magnetic Dipole Momoment a chiral

changing

• Muon EDM

• Lepton Flavor Violation

B. Lee Roberts, PSI - 15 August 2006 - p. 18/54

(in modern language)

(and in English)

Magnetic Moments (Field started by Stern)

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Dirac Equation Predicts g=2

Non-relativistic reduction of the Dirac Equation for an electron in a weak magnetic field.

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Dirac + Pauli moment

Schwinger

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Radiative corrections change g

Dirac Stern-Gerlach

Schwinger Kusch-Foley

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The SM Value for electron and muon anomalies

e vrs. : relative contribution of heavier things

e,

e*,

e,

e,

e,

e, e,

e,

e,

e,e,

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aμ is sensitive to a wide range of new physics

• substructure

• SUSY (with large tanβ )

• many other things (extra dimensions, etc.)

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We measure the difference frequency between the spin and momentum precession

0With an electric quadrupole field for vertical focusing

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Inflector

Kicker Modules

Storagering

Central orbitInjection orbit

Pions

Target

Protons

π

(from AGS) p=3.1GeV/c

Experimental Technique

B

• Muon polarization• Muon storage ring• injection & kicking• focus by Electric Quadrupoles• 24 electron calorimeters

R=711.2cm

d=9cm

(1.45T)

Electric Quadrupoles(from Q. Peng)

B. Lee Roberts, PSI - 15 August 2006 - p. 26/54

muon (g-2) storage ring

Muon lifetime t = 64.4 s

(g-2) period ta = 4.37 s

Cyclotron period tC = 149 ns

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Detectors and vacuum chamber

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We count high-energy electrons as a function of time.

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The ± 1 ppm uniformity in the average field is obtained with special shimming tools.

We can shim the

dipole,

quadrupole

sextupole

independently

0.5 ppm contours

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The magnetic field is measured and controlled using pulsed NMR and the free-induction decay.

• Calibration to a spherical water sample that ties the field to the Larmor frequency of the free proton p.

• So we measure a and p

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When we started in 1983, theory and experiment were known to about 10 ppm.

Theory uncertainty was ~ 9 ppm

Experimental uncertainty was 7.3 ppm

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E821 achieved 0.5 ppm and the e+e- based theory is also at the 0.6 ppm level. Both can be improved.

All E821 results were obtained with a “blind” analysis.

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To compare with theory, there are two hadronic issues:

• Lowest order hadronic contribution

• Hadronic light-by-light

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Lowest Order Hadronic from e+e-

annihilation

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Two experiments at the Budker Insitute at Novosibirsk have measured R(s) to better than a percent.

1994-1995114k π+π-

19964k π+π-

199733k π+π-

1998~1M π+π-

2000~2M π+π-

96

95,98

97

96,98

98,2000

CMD-2 SND

meson interference

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R(s) measurements at low s

VEPP-2M

Babar/Belle (ISR)

KLOE (ISR)

VEPP-2000

At low s the cross-section is measured independently for each final state

from Davier/Höcker

B. Lee Roberts, PSI - 15 August 2006 - p. 37/54

Taking the hadronic contribution from Simon Eidelman’s talk at ICHEP06, including new CMD2 & SND e+e- data

Contribution a, 10-10

Experiment 11 659 208.0 ± 6.3

QED 11 658 471.94 ± 0.14

Hadronic 693.1 ± 5.6

Electroweak 15.4 ± 0.1 ± 0.2

Total Theory 11 659 180.5 ± 5.6

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Electric and Magnetic Dipole MomentsPhys. Rev. 78 (1950)

B. Lee Roberts, PSI - 15 August 2006 - p. 39/54

Transformation Properties of Electric and Magnetic Dipole Moments

An EDM implies both P and T are violated. Assuming CPT symmetry, an EDM at a measureable level would imply non-standard model CP.

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However, it should be emphasized that while such arguments are appealing from the point of view of symmetry, they are not necessarily valid.

Ultimately the validity of all such symmetry arguments must rest on experiment.

N.F. Ramsey,

Phys. Rev. 109, 225 (1958)

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B. Lee Roberts, PSI - 15 August 2006 - p. 42/54

Present EDM Limits

Particle Present EDM limit(e-cm)

SM value(e-cm)

n 3 x 10-26 (90%CL) 10-32 to 10-31

e- 1.6 x 10-27 (90%CL) < 10-41

< 10-38

199Hg 2.1 x 10-28 (95%CL)

*not yet final

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B. Lee Roberts, PSI - 15 August 2006 - p. 44/54

Muon EDM: Naïve scaling would imply that

but in some models the dependence is greater.

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Spin Frequencies: in B field with MDM & EDM

The EDM causes the spin to precess out of plane.

The motional E - field, β X B, is much stronger than laboratory electric fields (~GV/m).

spin difference frequency = s - c

0

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Dedicated EDM Experiment

With a = 0, the EDM causes the spin to steadily precess out of the plane.

0

Use a radial E-field to turn off the a precession

B. Lee Roberts, PSI - 15 August 2006 - p. 47/54

“Frozen spin” technique

• Turn off the (g-2) precession with radial E• Look for an up-down asymmetry building up with

time

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A very interesting proposal by Adelmann and Kirch

B = 1 T

p = 125 MeV/c

= 0.77, = 1.57

P ≈ 0.9

E = 0.64 MV/m

R = 0.35 m

In 1 year of running @ PSI

B. Lee Roberts, PSI - 15 August 2006 - p. 49/54

Lepton Flavor Violation (the transition moment)

• The standard-model gauge bosons do not permit leptons to mix, but new physics at the TeV scale such as SUSY does.

Relevant quark level interactions for -e conversion

Dipole

Scalar

Vector

R.Kitano, M.Koike and Y.Okada. 2002

B. Lee Roberts, PSI - 15 August 2006 - p. 50/54

SUSY connection between a , Dμ , μ → e

→ e MDM, EDM~ ~

B. Lee Roberts, PSI - 15 August 2006 - p. 51/54

Past and Future of LFV Limits

+e-→-e+

Bra

nchi

ng R

atio

Lim

it

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MEG Experiment (@PSI) → e

Discovery Potential: Single event sensitivity ~ 1 X 10-13

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Summary and Outlook• The muon has provided us with much knowledge on

how nature works.• PSI has played an enormous role in providing this

information: e.g.– Search for other couplings in muon decay: (Fetscher, Gerber, et

al.,)– Search for LFV:

• search for N → e- N• search for +e- → - e+

• search for + → e+ e+ e- and + → e+ – Running/Building experiments:

• muon lifetime - G

• muCap - gp

• MEG - LFV: + → e+

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Summary and Outlook• The muon has provided us with much knowledge on how

nature works.• New experiments on the horizion continue this tradition.• Muon (g-2), with a precision of 0.5 ppm, has a 3.3

discrepancy with the standard model.– Upgrade, E969 waits for funding decision in 10/06

• This new physics, if confirmed, would show up in an EDM and perhaps LFV as well.

• MEG is set to turn on and collect data in the next year. • Muon-electron conversion holds the best experimental

prospect for going much further on LFV.

• There is plenty of room for new surprises!

B. Lee Roberts, PSI - 15 August 2006 - p. 55/54

THE END

B. Lee Roberts, PSI - 15 August 2006 - p. 56/54

Extra Slides

B. Lee Roberts, PSI - 15 August 2006 - p. 57/54

→ e branching ratio (typical example)

SU(5) and SO(10) SUSY GUT

SUSY seesaw model

The branching ratio can be largein particular for SO(10) SUSY GUT model.

J.Hisano and D.Nomura,2000

K.Okumura

SO(10)

SU(5)

Right-handed neutrino mass

Right-handed selectron mass

MEGA

thanks to Y. Okada

B. Lee Roberts, PSI - 15 August 2006 - p. 58/54

Comparison of three muon processes in various new physics models

SUSY GUT/Seesaw

B(→e ) >> B(→3e) ~ B(A→eA) Various asymmetries in polarized decays.

SUSY with large tan

→e conv. can be enhanced. Z-dependence in →e conv. branching ratio.

Triplet Higgs for neutrino

B(→3e) > or ~ B(→eg) ~B(A→eA)

RL model B(→3e) >> B(→eg) ~B(A→eA)Asymmetry in →3e

RPV SUSY Various patterns of branching ratios and asymmetries

want to measure all three LFV processes to disentangle the models

thanks to Y. Okada

B. Lee Roberts, PSI - 15 August 2006 - p. 59/54

B. Lee Roberts, PSI - 15 August 2006 - p. 60/54

Lan @ PSI aims for a factor of 20 improvement

Fit to 2004 data set, stat ≈ 8.2 ppm

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Recent Developments:

The induced pseudoscalar coupling in nuclear -capture

However, a new TRIUMF measurement of the atomic “ortho to para transition rate” seems to remove much of this problem. Clark, et al., PRL 96, 073401 (2006)

further enhanced in radiative muon capture (RMC).

TRUIMF experiment saw a 3 discrepancy with PCAC prediction.

A new ordinary muon capture (OMC) experiment at PSI, MuCap, hopes to resolve this 3 discrepancy.

B. Lee Roberts, PSI - 15 August 2006 - p. 62/54

Muonium

Hydrogen (without the proton)

Zeeman splitting

p = 3.183 345 24(37) (120 ppb)

where p comes from proton NMR in the same B fieldfrom K. Jungmann

B. Lee Roberts, PSI - 15 August 2006 - p. 63/54

B. Lee Roberts, PSI - 15 August 2006 - p. 64/54

Pion formfactor (CMD-2)

0.7% 0.6% (95)/ 0.8% (98) 1.2-4.2%Systematic error

published

Analysis finished.Not published yet.

from: I Logashenko interference

B. Lee Roberts, PSI - 15 August 2006 - p. 65/54

B. Lee Roberts, PSI - 15 August 2006 - p. 66/54

a(had) from hadronic decay?

• Assume: CVC, no 2nd-class currents, isospin breaking corrections. – e+e- goes through neutral – while -decay goes through charged

• n.b. decay has no isoscalar piece, e+e- does• Many inconsistencies in comparison of e+e- and decay:

B. Lee Roberts, PSI - 15 August 2006 - p. 67/54

Testing CVC with one number

Infer branching fractions (more robust than spectral functions) from e+e– data:

Difference: BR[ ] – BR[e+e – (CVC)]:

Mode ( – e+e –) `Sigma‘

– – 0 + 0.92 ±

0.214.5

– – 3 0 – 0.08 ±

0.110.7

– 2 – + 0 + 0.91 ±

0.253.6

ee data on – + 0 0 not satisfactory

from Michel Davier

B. Lee Roberts, PSI - 15 August 2006 - p. 68/54

– –

0: preliminary results from BELLE

• preliminary results from BELLE on spectral function presented at EPS 2005

• high statistics: see dip at 2.4 GeV2 for first time in data

• discrepancies with ALEPH/CLEO at large mass and ee data at low mass

B. Lee Roberts, PSI - 15 August 2006 - p. 69/54

The use of -decay is in question

• Until the discrepancies between the individual data sets can be resolved, and CVC can be shown to hold independently it’s clear that only the e+e- data can be used to determine a(had)

The agreement between SND and CMD-2 invalidates the use of data until a better understanding of the discrepancies is achieved (an interesting question as such)

Michel Davier at Lepton Moments, June 2006

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B. Lee Roberts, PSI - 15 August 2006 - p. 71/54

Model calculations of μ EDM

μ EDM may be enhancedabove mμ/me × e EDM

Magnitude increases withmagnitude of ν Yukawa couplings

and tan β

μ EDM greatly enhanced when heavy neutrinos non-degenerate from John Ellis

B. Lee Roberts, PSI - 15 August 2006 - p. 72/54

aμ implications for the muon EDM

B. Lee Roberts, PSI - 15 August 2006 - p. 73/54

Future Experiments:

• MECO Experiment @ BNL - + N → e- + N– 10-17 single event sensitivity

proton beam

-/- collection solenoid

- stopping target

straw tracker

EM calorimeter

Cancelled mu2e @ FNAL???

B. Lee Roberts, PSI - 15 August 2006 - p. 74/54

Future Experiments:

• MECO Experiment @ BNL - + N → e- + N– 10-17 single event sensitivity

• MEG Experiment @PSI + → e+ – Under Construction Data Begins in 2006

Cancelled

B. Lee Roberts, PSI - 15 August 2006 - p. 75/54

B. Lee Roberts, PSI - 15 August 2006 - p. 76/54

Comparison of three processes

If the photon penguin process dominates, there are simple relations among these branching ratios.

This is true in many, but not all SUSY modes.

thanks to Y. Okada

B. Lee Roberts, PSI - 15 August 2006 - p. 77/54

LFV Experiments:

• MECO Experiment @ BNL - + N → e- + N– 10-17 single event sensitivity

• MEG Experiment– Under Construction Data Begins in 2006

• PRISM-PRIME- + N → e- + N– LOI to J-PARC FFAG under construction– 10-18 – 10-19 single event sensitivity

Cancelled

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