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Chris Parkes University of Manchester Part VI Concluding Remarks 1)Other flavour physics / CPV searches 2)Overall Constraints on CKM Triangle.

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Presentation on theme: "Chris Parkes University of Manchester Part VI Concluding Remarks 1)Other flavour physics / CPV searches 2)Overall Constraints on CKM Triangle."— Presentation transcript:

1 Chris Parkes University of Manchester Part VI Concluding Remarks 1)Other flavour physics / CPV searches 2)Overall Constraints on CKM Triangle

2 Spectroscopy: Z(4430) - Z(4430) - Other areas of measurements made by quark flavour experiments not discussed yet: Spectroscopy

3 Chris Parkes3 Exotic States An area of quark flavour physics we haven’t discussed is searching for new meson states Mesons: quark, anti-quark Baryons: 3 quarks 50 year history of searching for ‘exotic’ states For example:

4 Chris Parkes4 Z(4430) - : Exotic State Belle discovered X(3872 MeV) in 2014 didn’t match any predicted mass state for a charm meson Subsequently a number of other states that don’t “fit” have been found Z(4430) - is a charged state, given its mass its minimal quark content i.e. a four-quark state Possible exotic explanations include: tetra-quark : di-quark di-anti-quark; or charmonium-’molecule’ mixture. LHCb, 2014, arXiv:1404.1903

5 Chris Parkes5 Pentaquark States Invariant mass calculation using with measured momenta known J/Ψ, p, K masses E, p, conservation Clean selection – low background Λ b quark content (udb) Study two-body mass combinations Quark content J/Ψ (cc), p (uud)

6 Chris Parkes6 Full analysis – with all known contributions to Dalitz plots included in model – shows two new states needed Pentaquarks !

7 Dipole Moments Other type of measurements sensitive to CP violation in quarks but not made by accelerator-based quark flavour experiments

8 Chris Parkes8 Spin reverses under T Dipole moment reverses under P So another way of finding CP Violation (and another good LHCb PhD thesis topic…)

9 Neutron Electric Dipole Moments Spin precession frequency of ultracold neutrons in a weak magnetic field. 1.Take neutrons from reactor at ILL 2. Slow them down and store (100s) 3. Apply weak magnetic field neutron spin precesses in magnetic field due to magnetic moment of neutron 4. strong electric field is applied also If an EDM this will interact and spin precession will speed up or slow down 5. Measure precession with NMR Experiment at IIL, Grenoble from Sussex, RAL et al. Initially rom temp, now cryo. expt

10 CKM Measuring Parameters Triangle – Overall Fits

11 Chris Parkes11 CKM metrology  |V ud | : nuclear  -decay ~ (0.9738  0.0003)  |V us | : semileptonic kaon decays ~ (0.226  0.002)  |V ud | : nuclear  -decay ~ (0.9738  0.0003)  |V us | : semileptonic kaon decays ~ (0.226  0.002) How are the CKM parameters magnitudes (not phases) measured?  Magnitudes are typically determined from (ratios of) decay rates  E.g. compare decay rates of neutron and muon decays (  V ud 2 )

12 Chris Parkes12 Remember unitarity constraints – e.g. so can constrain for further generations of quarks from magnitudes only

13 Chris Parkes13 CKM metrology – constraints in the ( ,  ) plane Taken from the UTfit homepage: http://www.utfit.org Kaons CPVB CPVB magnitudes only B Mixing B CPV

14 Chris Parkes14 CKM metrology and unitarity triangle fit CKM Mechanism in SM proven to work Now a good way to discover new physics Over constraining triangle and compatibility of angle measurements

15 Chris Parkes15 CKM metrology and UnitarityTriangle: Current Status There is still compatibility with the Standard Model ! Constraints from many CKM matrix complementary and independent measurements There is still compatibility with the Standard Model ! Constraints from many CKM matrix complementary and independent measurements

16 Chris Parkes16 Concluding remarks  CP violation is a fundamental broken symmetry  Needed for matter anti-matter asymmetry  It can be incorporated in the Standard Model, but seems like an “add-on”  SM cannot be the final answer nowhere near enough CP Violation in quark sector  Study of CP violation involves precise measurements of the CKM matrix  Present measurements allow to over-constrain the CKM triangles and look for inconsistencies  Inconsistencies would be a sign for New Physics  And rare decays also an important method for searching for New Physics  A lot of hope and expectation for the (near) future experimental results!

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