Presentation is loading. Please wait.

Presentation is loading. Please wait.

Weak Interactions Chapter 8 M&S Some Weak Interaction basics

Similar presentations


Presentation on theme: "Weak Interactions Chapter 8 M&S Some Weak Interaction basics"— Presentation transcript:

1 Weak Interactions Chapter 8 M&S Some Weak Interaction basics
P Spring 2003 L10 Richard Kass Weak Interactions Some Weak Interaction basics Weak force is responsible for b decay e.g. n → pev (1930’s) interaction involves both quarks and leptons not all quantum numbers are conserved in weak interaction: parity, charge conjugation, CP isospin flavor (strangeness, bottomness, charm) Weak (+EM) are “completely” described by the Standard Model Weak interactions has a very rich history 1930’s: Fermi’s theory described b decay.   1950’s: V-A (vector-axial vector) Theory: Yang & Lee describe parity violation Feynman and Gell-Mann describe muon decay and decay of strange mesons 1960’s: Cabibbo Theory N. Cabibbo proposes “quark mixing” (1963) "explains" why rates for decays with DS =0 > DS =1 Chapter 8 M&S Chapter M&S Quarks in strong interaction are not the same as the ones in the weak interaction: weak interaction basis different than strong interaction basis previous example:

2 Weak Interactions Weinberg-Salam-Glashow (Standard Model 1970’s-today)
P Spring 2003 L10 Weak Interactions Richard Kass Weinberg-Salam-Glashow (Standard Model 1970’s-today) unify Weak and EM forces predict neutral current (Z) reactions gives relationship between mass of W and Z predict/explain lots of other stuff!..e.g. no flavor changing neutral currents existence of Higgs (“generates”mass in Standard Model) Renormalizable Gauge Theory But the picture is still incomplete: must input lots of parameters into the Standard Model (e.g. masses) where’s the Higgs and how many are there ? how many generations of quarks and leptons are there ? mass pattern of quarks and leptons ? neutrinos have mass! CP violation observed with quarks! is there CP violation with leptons?

3 Weak Interactions NOT Allowed Allowed
P Spring 2003 L10 Weak Interactions Richard Kass Classification of Weak Interactions Type Comment Examples Leptonic involves only leptons muon decay (m ® evv) nee- ® nee- Semileptonic leptons and quarks neutron decay (Ds=0) K+ ® m+nm (Ds=1) (Db=1) Non-Leptonic involves only quarks L ® p-p & K+® p+po Some details of Weak Interactions quarks and leptons are grouped into doublets (SU(2)) (sometimes called families or generations) For every quark doublet there is a lepton doublet NOT Allowed Allowed ne nm,t W- W- e- e- nm ne,t W- W- m- m- nt Charged Current Interactions (exchange of a W boson) W’s couple to leptons in the same doublet The W coupling to leptons/quarks is a combination of vector and axial vector terms: Ju = ugu(1- g5 )u (parity violating charged current) ne,m W- W- t- t-

4 P Spring 2003 L10 Cabibbo Model Richard Kass Cabibbo’s conjecture was that the quarks that participate in the weak interaction are a mixture of the quarks that participate in the strong interaction. This mixing was originally postulated by Cabibbo (1963) to explain certain decay patterns in the weak interactions and originally had only to do with the d and s quarks. d’ = d cosq + s sinq Thus the form of the interaction (charged current) has an extra factor for d and s quarks d quark: Ju a gu(1- g5 )cosqc s quark: Ju a gu(1- g5 )sinqc d s W- W- cosqc sinqc Purely leptonic decays (e.g. muon decay) do not contain the Cabibbo factor: u u The Cabibbo angle is important for determining the rate of many reactions: The Cabibbo angle can measured using data from the following reactions: nm m+ cosqcor sinqc W+ From the above branching ratio’s we find: qc= 0.27 radians We can check the above by measuring the rates for: u Find: qc= 0.25 radians d, s

5 Cabibbo’s Model M&S section 8.3.1 Extensions to the Cabibbo Model:
P Spring 2003 L10 Cabibbo’s Model Richard Kass Extensions to the Cabibbo Model: Cabibbo’s model could easily be extended to 4 quarks: Adding a fourth quark actually solved a long standing puzzle in weak interactions, the “absence” (i.e. very small BR) of decays involving a “flavor” (e.g. strangeness) changing neutral current: However, Cabibbo’s model could NOT incorporate CP violation and by 1977 there was evidence for 5 quarks! M&S section 8.3.1 The CKM model: In 1972 (2 years before discovery of charm!) Kobayashi and Maskawa extended Cabibbo’s idea to six quarks: 6 quarks (3 generations or families) 3x3 matrix that mixes the weak quarks and the strong quarks (instead of 2x2) The matrix is unitary ®3 angles (generalized Cabibbo angles), 1 phase (instead of 1 parameter) The phase allows for CP violation Cabibbo’s name was added to make “CKM” Just like qc had to be determined from experiment, the matrix elements of the CKM matrix must also be obtained from experiment.

6 The GIM Mechanism K0 K+ forbidden allowed
P Spring 2003 L10 The GIM Mechanism Richard Kass In Glashow, Iliopoulos, and Maiani (GIM) proposed a solution to the to the K0 ®m+ m- rate puzzle. The branching fraction for K0 ®m+ m- was expected to be small as the first order diagram is forbidden (no allowed W coupling). nm m+ m+ m- K0 forbidden K+ allowed W+ ??0 u s d s The 2nd order diagram (“box”) was calculated & was found to give a rate higher than the experimental measurement! amplitude µ sinqccosqc GIM proposed that a 4th quark existed and its coupling to the s and d quark was: s’ = scosq - dsinq The new quark would produce a second “box” diagram with amplitude µ -sinqccosqc These two diagrams almost cancel each other out. The amount of cancellation depends on the mass of the new quark A quark mass of »1.5GeV is necessary to get good agreement with the exp. data. First “evidence” for Charm quark!

7 CKM Matrix The CKM matrix can be written in many forms:
P Spring 2003 L10 Richard Kass CKM Matrix The CKM matrix can be written in many forms: 1) In terms of three angles and phase: This matrix is not unique, many other 3X3 forms in the literature. This one is from PDG2000. The four real parameters are d, q12, q23, and q13. Here s=sin, c=cos, and the numbers refer to the quark generations, e.g. s12=sinq12. 2) In terms of coupling to charge 2/3 quarks (best for illustrating physics!) 3) In terms of the sine of the Cabibbo angle (q12). This representation uses the fact that s12>>s23>>s13. “Wolfenstein” representaton Here l=sinq12, and A, r, h are all real and approximately one. This representation is very good for relating CP violation to specific decay rates.

8 P Spring 2003 L10 Richard Kass CKM Matrix The magnitudes of the CKM elements, from experiment are (PDG2000): There are several interesting patterns here: The CKM matrix is almost diagonal (off diagonal elements are small). The further away from a family, the smaller the matrix element (e.g. Vub<<Vud). Using 1) and 2), we see that certain decay chains are preferred: c ® s over c ® d D0® K-p+ over D0® p-p+ (exp. find 3.8% vs 0.15%) b ® c over b ® u B0® D-p+ over B0® p-p+ (exp. find 3x10-3 vs 1x10-5) Since the matrix is supposed to be unitary there are lots of constraints among the matrix elements: So far experimental results are consistent with expectations from a Unitary matrix. But as precision of experiments increases, we might see deviations from Unitarity.

9 Measuring the CKM Matrix
P Spring 2003 L10 Measuring the CKM Matrix Richard Kass No one knows how to calculate the values of the CKM matrix. Experimentally, the cleanest way to measure the CKM elements is by using interactions or decays involving leptons. Þ CKM factors are only present at one vertex in decays with leptons. Vud: neutron decay: n®pev d®uev Vus: kaon decay: K0® p+e-ve s®uev Vbu: B-meson decay: B-® (r or p+)e-ve b®uev Vbc: B-meson decay: B-® D0e-ve b®cev Vcs: charm decay: D0® K-e+ve c®sev Vcd: neutrino interactions: nmd® m-c d®c For massless neutrinos the lepton “CKM” matrixis diagonal “Spectator” Model decay of D0® K-e+ve e,m ne,nm W Amplitude µVcs Decay rate µ|Vcs|2 c s Vcs K- D0 u u Called a “spectator” diagram because only one quark participates in the decay, the other “stands around and watches”.


Download ppt "Weak Interactions Chapter 8 M&S Some Weak Interaction basics"

Similar presentations


Ads by Google