Date 07.10.2009 D 0 -D 0 Oscillation Niels van de Vegte & Roel Tempelaar Supervisor: Johan Messchendorp Kernfysisch Versneller Instituut.

Slides:

Advertisements

Similar presentations

Particle Physics II Chris Parkes Heavy Flavour Physics Weak decays – flavour changing Mass states & flavour states GIM mechanism & discovery of charm CKM.

Advertisements

: Section 3: Mixing and CP violation in (mostly) neutral mesons.

1Chris Parkes Part II CP Violation in the SM Chris Parkes.

Quarks come in six different types, with six antipartners. On the A-level syllabus, you need to know about three: up, and down (which make up everyday.

Neutrino mixing angle θ 13 In a SUSY SO(10) GUT Xiangdong Ji Peking University University of Maryland.

P Spring 2003 L7Richard Kass Neutral Kaons and CP violation Since CP is not conserved in neutral kaon decay it makes more sense to use mass (or lifetime)

1 CKM unitarity problem: results from NA48 experiment Evgueni Goudzovski (JINR) JINR Scientific Council January 20, 2005.

Francisco Antonio Physics 129 November 23, 2010 Li Zhengdao and Yang Zhenning, 1953.

Properties and Decays of Heavy Flavor S-Wave Hadrons Rohit Dhir Department of Physics, Yonsei University, Seoul Dated:11 th June, 2012.

Particle Reactions and Decays - I [Secs 16.1, 16.2 Dunlap]

Flavor mixing in the BB system Motivation of studying B B system Measuring the B B flavor oscillation BaBar experiment Production of B B B B tagging Particle.

Standard Model. Subatomic World  Protons, neutrons, and electrons make up atoms.  Photons are particles that convey electromagnetic energy. Force carrierForce.

Chiral freedom and the scale of weak interactions.

Advanced topics in Particle Physics: LHC physics, 2011 Jeroen van Tilburg 1/55 Overview of flavour physics.

P461 - particles V1 Mixing in Weak Decays Charged Weak Current (exchange of Ws) causes one member of a weak doublet to change into the other Taus and muons.

P461 - particles III1 Mixing in Weak Decays Charged Weak Current (exchange of Ws) causes one member of a weak doublet to change into the other Taus and.

June 11, 2007 Oral Examination Observation of CP Violation in Kaon Decays Igor Senderovich.

Aug 29-31, 2005M. Jezabek1 Generation of Quark and Lepton Masses in the Standard Model International WE Heraeus Summer School on Flavour Physics and CP.

A New Theory of Neutrino Oscillations Netta Engelhardt

Niels Tuning (1) Particle Physics II – CP violation (also known as “Physics of Anti-matter”) Lecture 3 N. Tuning.

Quantum Electrodynamics Dirac Equation : spin 1/2.

P Spring 2003 L14Richard Kass B mesons and CP violation CP violation has recently ( ) been observed in the decay of mesons containing a b-quark.

The Discoveries of Particle & Nuclear Physics Models and Experimental Facts.

Introduction to Flavor Physics in and beyond the Standard Model

Particle Physics II – CP violation Lecture 3

Particle Physics: Status and Perspectives Part 4: The Standard Model

Isospin, a quantum number, is indicated by I (sometimes by T), is related to the number of electrically charged states (N) of a meson or a baryon, and.

Physics 222 UCSD/225b UCSB Lecture 5 Mixing & CP Violation (1 of 3) Today we focus on Matter Antimatter Mixing in weakly decaying neutral Meson systems.

Aim: How can we explain the four fundamental forces and the standard model? Do Now: List all the subatomic particles that you can think of.

Fundamental principles of particle physics G.Ross, CERN, July08.

Atomic Physics – Part 3 Ongoing Theory Development To accompany Pearson Physics PowerPoint presentation by R. Schultz

Niels Tuning (1) CP violation Lecture 4 N. Tuning.

Dr Aidan Robson. The Standard Model of Particle Physics.

SYNTHESIS The Standard Model 1.Elementary particles 2.Strong nuclear force 3.Weak nuclear force 4.The Standard Model.

Niels Tuning (1) Particle Physics II – CP violation Lecture 3 N. Tuning Acknowledgements: Slides based on the course from Wouter Verkerke and Marcel Merk.

B s Mixing Parameters and the Search for CP Violation at CDF/D0 H. Eugene Fisk Fermilab 14th Lomonosov Conference Moscow State University August ,

Unit 13: Particle Physics Four fundamental interactions in nature 1.Strong – responsible for binding neutrons and protons into nuclei 2.Electromagnetic.

Niels Tuning (1) Topical lectures December 2010 CP violation Hour 3 N. Tuning.

P Spring 2002 L16Richard Kass B mesons and CP violation CP violation has recently ( ) been observed in the decay of mesons containing a b-quark.

The Theory of (Almost) Everything Standard Model.

10/29/2007Julia VelkovskaPHY 340a Lecture 4: Last time we talked about deep- inelastic scattering and the evidence of quarks Next time we will talk about.

Weak interactions I. Radulescu Sub-atomic physics seminar October 2005 _____________________________________________ Nuclear Geophysics Division Kernfysisch.

1 outline ● Part I: some issues in experimental b physics ● why study b quarks? ● what does it take? ● Part II: LHCb experiment ● Part III: LHCb first.

The Standard Model of Particle Physics

Part II CP Violation in the SM Chris Parkes.

Today’s plan Collect homework QCD leftovers Weak Interaction.

The Standard Model.

Nuclear Physics Question: Why do the heavy nuclei clump above the red line ? Hint: What are the competing interactions ? Ans: Attractive Strong Interaction.

Lecture 13 – the weak force

The Structure of the Atom

Elementary Particles Chapter 14

Particle Placemat.

Aim: How can we describe Fundamental Particles?

Matter vs. Antimatter The Question of Symmetry

Precision Probes for Physics Beyond the Standard Model

The Mysterious Nucleus

The Mysterious Nucleus

Isospin Idea originally introduced in nuclear physics to explain observed symmetry between protons and neutrons (e.g. mirror nuclei have similar strong.

Methods of Experimental Particle Physics

Neutral Kaons and CP violation

Particle Physics II – CP violation (also known as “Physics of Anti-matter”) Lecture 3 N. Tuning Niels Tuning (1)

Quarks Remember the family of ordinary matter consists of only 4 particles, (not counting their antiparticles) quark u d lepton (electron) e Lepton (electron.

Standard Model Review 2019.

Particle oscillations in COLLAPSE models

The Eighteen Parameters of the Standard Model in Your Everyday Life

Fundamental Forces.

Quarks Types Up Down Charmed Strange Top Bottom Formations Hadrons

Physics 4 – April 18, 2019 Agenda:

* Michael D. Sokoloff Physics Department University of Cincinnati

Presentation transcript:

Date D 0 -D 0 Oscillation Niels van de Vegte & Roel Tempelaar Supervisor: Johan Messchendorp Kernfysisch Versneller Instituut

Date Outline

Date Basics of the Standard Model

Date Basics of the Standard Model

Date Hadrons: Baryons Proton Neutron

Date Hadrons: Neutral mesons

Date Fundamental force: Strong interaction

Date Fundamental force: Weak interaction

Date generations quark mixing Strong interaction Eigenstates Weak interaction Eigenstates

Date Cabibbo surpressed/favoured WeakStrong

Date Cabibbo surpressed/favoured Rates Cabibbo favoured Cabibbo surpressed

Date Cabibbo surpressed/favoured

Date Cabibbo angle measurement

Date Cabibbo-Kobayashi-Maskawa matrix WeakStrongUnitary matrix

Date Neutral D meson oscillation

Date Schrödinger equation

Date Single particle case Time evolution Mass Inverse lifetime

Date Single particle case Time evolution Time-dependent Schrödinger equation Hamiltonian

Date Hamiltonian

Date Hamiltonian Mixing CP violation

Date Hamiltonian CP violation

Date Hamiltonian Eigenstates

Date Hamiltonian Eigenvalues

Date Probability

Date Dimensionless ratios

Date