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IoP Masterclass The Physics of Flavour at the Large Hadron Collider Tim Gershon University of Warwick April 14 th 2010.

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Presentation on theme: "IoP Masterclass The Physics of Flavour at the Large Hadron Collider Tim Gershon University of Warwick April 14 th 2010."— Presentation transcript:

1 IoP Masterclass The Physics of Flavour at the Large Hadron Collider Tim Gershon University of Warwick April 14 th 2010

2 The Standard Model Tim Gershon, IoP Masterclass, April 14 th 2010 2

3 Some Questions ● What is antimatter? ● Why are there three “colours” of quarks? ● Why are there so many bosons? These questions have well-understood answers 3 Tim Gershon, IoP Masterclass, April 14 th 2010

4 Some More Questions ● Why are there so many fermions? ● Why are there three “generations” of both quarks and leptons? ● Why are matter and antimatter different? We do not know the answers to these questions! 4 (“flavour”) (“CP violation”) Tim Gershon, IoP Masterclass, April 14 th 2010

5 Matter vs. antimatter ● In the Big Bang, matter and antimatter should have been produced in equal quantities ● In the Universe today, we observe only matter ⇒ need CP violation 5 Tim Gershon, IoP Masterclass, April 14 th 2010

6 Asymmetry of the Universe ● Paul Dirac, one of the greatest British physicists of all time, won the 1933 Nobel Prize for his prediction of the existence of antimatter ● In his Nobel lecture, Dirac concludes: “... we must regard it rather as an accident that [the solar system] contains a preponderance of negative electrons and positive protons. It is quite possible that for some of the stars it is the other way about, these stars being built up mainly of positrons and negative protons. In fact, there may be half the stars of each kind. ” ● It turns out there are not any antimatter stars ● Dirac did not know about CP violation! 6 Tim Gershon, IoP Masterclass, April 14 th 2010

7 What is CP Violation? ● Symmetries are powerful tools to understand nature ● Two important discrete symmetries are — C : charge conjugation (exchange particle and antiparticle) — P : parity (mirror transform all spatial coordinates) Need violation of combined CP symmetry to distinguish absolutely between matter & antimatter 7 Tim Gershon, IoP Masterclass, April 14 th 2010

8 CP Symmetry 8 P C Tim Gershon, IoP Masterclass, April 14 th 2010 Illustrated using the images of MC Escher CP Combined CP transformation ⇒ pictures look the same

9 CP Violation 9 P C Tim Gershon, IoP Masterclass, April 14 th 2010 Illustrated using the images of MC Escher CP Combined CP transformation ⇒ pictures look different!

10 The CKM Matrix ● Quark mixing described by Cabibbo-Kobayashi-Maskawa matrix ● Matrix elements are complex numbers — interactions of quarks and antiquarks can be different ⇒ CP violation! 10 down-type quarks as seen by the weak interaction physical down-type quarks (with well-defined masses) Tim Gershon, IoP Masterclass, April 14 th 2010 Makoto Kobaya shi Toshihid e Maskaw a Nobel Prize in Physics 2008

11 B Physics at the LHC ● CP violation appears to be central to understanding the questions discussed above ➢ eg. as shown by Kobayashi & Maskawa (1973), need at least three generations for CP violation to occur ● Kobayashi-Maskawa mechanism predicts large CP violation effects in particles containing b quarks ➢ need dedicated experiments to test KM predictions ● Exploit copious production of b quarks at the CERN Large Hadron Collider ➢ LHCb experiment 11 Tim Gershon, IoP Masterclass, April 14 th 2010

12 The LHC at CERN ● The world's largest machine ● Located at CERN laboratory near Geneva ● 26 659 m circumference ● Emptier (10 –13 atm) and colder (1.9 K = –271.3° C) than outer space ● 1232 superconducting dipole magnets (8.33 T) ● Cost ~ £5 billion 12 Tim Gershon, IoP Masterclass, April 14 th 2010 Geneva Geneva airport LHCb experiment Main CERN site

13 LHC dipole magnets 13 Tim Gershon, IoP Masterclass, April 14 th 2010

14 Will the LHC destroy the earth? 14 Tim Gershon, IoP Masterclass, April 14 th 2010 No!

15 The LHCb Experiment 15 Tim Gershon, IoP Masterclass, April 14 th 2010 ● Searching for new sources of CP violation ➢ compare matter and antimatter ➢ look for disagreement with Standard Model predictions ➢ search for unexpected effects ● Requires an ultra-high precision detector ➢ operated by a collaboration of 700 physicists

16 Can the LHC be used to make antimatter bombs? 16 Tim Gershon, IoP Masterclass, April 14 th 2010 No!

17 Summary 17 Tim Gershon, IoP Masterclass, April 14 th 2010 ● Studies of B physics provide excellent opportunities to address one of the biggest questions about our Universe ➢ What causes the excess of matter over antimatter? ● By learning more about B physics and CP violation we hope to find clues about the theoretical structure of the Standard Model (and any theories beyond it) ➢ Why are there three generations of quarks and leptons? ● The Warwick group is actively involved in experiments at the forefront of this exciting area of research ➢ We hope the LHCb experiment will provide some answers!

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