3. Beauty in the Universe

4. Innermost Space High Energy Particle Physics is a study of the smallest pieces of matter. It investigates the deepest and most fundamental aspects of nature. It investigates (among other things) the nature of the universe immediately after the Big Bang. It also explores physics at temperatures not common for the past 15 billion years (or so).

5. Periodic Table u d u u d d Proton NeutronElectron Gluons hold quarks together Photons hold atoms together HeliumNeon All atoms are made of protons, neutrons and electrons

6. t b c s u d While quarks have similar electric charge, they have vastly different masses (but zero size!)

8. Mysteries of the Quantum Universe Why three dimensions? What gives particles their mass? Are there new forces and symmetries that we don’t yet know? Are the forces and particles of which we do know just different faces of a deeper, unifying principle?

9.  =e 2 /ħc

10. Fermi National Accelerator Laboratory (a.k.a. Fermilab) Begun in 1968 First beam 1972 (200, then 400 GeV) Upgrade 1983 (900 GeV) Upgrade 2001 (980 GeV) Jargon alert: 1 Giga Electron Volt (GeV) is 100,000 times more energy than the particle beam in your TV. If you made a beam the hard way, it would take 1,000,000,000 batteries

12. Increasing ‘Violence’ of Collision Expected Number of Events Run II Run I Increased reach for discovery physics at highest masses Huge statistics for precision physics at low mass scales Formerly rare processes become high statistics processes 1 10 100 1000  The Main Injector upgrade was completed in 1999.  The new accelerator increases the number of possible collisions per second by 10-20.  DØ and CDF have undertaken massive upgrades to utilize the increased collision rate.  Run II began March 2001

13. How Do You Detect Collisions? Use one of two large multi-purpose particle detectors at Fermilab (DØ and CDF). They’re designed to record collisions of protons colliding with antiprotons at nearly the speed of light. They’re basically cameras. They let us look back in time.

14. Typical Detector (Now) 30’ 50’ Weighs 5,000 tons Can inspect 10,000,000 collisions/second Will record 50 collisions/second Records approximately 10,000,000 bytes/second Will record 10 15 (1,000,000,000,000,000) bytes in the next run (1 PetaByte).

15. Remarkable Photos This collision is the most violent ever recorded (and fully understood). It required that particles hit within 10 -19 m or 1/10,000 the size of a proton In this collision, a top and anti-top quark were created, helping establish their existence

17. Modern Cosmology Approximately 15 billion years ago, all of the matter in the universe was concentrated at a single point A cataclysmic explosion (of biblical proportions perhaps?) called the Big Bang caused the matter to fly apart. In the intervening years, the universe has been expanding, cooling as it goes.

18. 4x10 -12 seconds Now (13.7 billion years) Stars form (1 billion years) Atoms form (380,000 years) Nuclei form (180 seconds) ??? (Before that) Nucleons form (10 -10 seconds) Quarks differentiate (10 -34 seconds?)

19. Mysteries of the Quantum Universe Why three dimensions? What gives particles their mass? Are there new forces and symmetries that we don’t yet know? Are the forces and particles of which we do know just different faces of a deeper, unifying principle? Back to the Mysteries

20. In 1964, Peter Higgs postulated a physics mechanism which gives all particles their mass. This mechanism is a field which permeates the universe. If this postulate is correct, then one of the signatures is a particle (called the Higgs Particle). Fermilab’s Leon Lederman co-authored a book on the subject called The God Particle. top bottom Undiscovered!

21. Higgs: An Analogy

22. Hunting for Higgs For technical reasons, we look for Higgs bosons in association with a W or Z boson. b jet electron neutrino (MET) In the region where the Higgs boson is expected, we expect it to decay nearly- exclusively into b- quarks

23. The Conundrum of Gravity Why is gravity so much weaker (~10 -35 ×) the other forces? –Completely unknown One possibility is that gravity can access more dimensions than the other forces

24. The Dimensionality of Space Affects a Force’s Strength Gauss Law 2D 3D

25. Are More Dimensions Tenable? Newton’s Law of Gravity Clearly indicates a 3D space structure. Or does it?

26. Nature of Higher Dimensions What if the additional dimensions had a different shape? What if the additional dimensions were small?

27. Access to Additional Dimensions What if gravity alone had access to the additional dimensions?

28. Access to Additional Dimensions What if gravity alone had access to the additional dimensions?

29. A Model with “n” Dimensions. Gravity communicating with these extra dimensions could produce an unexpectedly large number of electron or photon pairs. Thus, analysis of the production rate of electrons and photon provides sensitivity to these extra dimensions. Large energies are required to produce such pairs. p p G q q’q’ e e

30. Once again there are interesting events! (way out on the mass tail.) ee pair  pair photons electrons

31. Technicians (Electrical & Mechanical) Trades (Plumbing, Electrical, Carpentry) Physicists Computer Scientists Engineers (Electrical & Mechanical)

32. Physicist’s Lifestyle

33. Physicist’s Lifestyle

34. Physicists Lifestyle 5 weeks of paid vacation a year Very free and open schedule Paid travel opportunities Always learning. Indulge curiosity.

35. Physicists Education/Career High School: (4 years) Concentrate on science, math, programming and English College: (4 years) Go into debt. Major in physics, learn a lot of math and computer skills Graduate School: (4-8 years, Ph.D.) Get paid to go to school ($20k). Learn stuff Full researcher: (35 years old, $75k) Have fun for the rest of your life. Or go into industry ($85-120k) Be a “postdoc” (4-6 years) Get paid to improve your knowledge ($45k) Or go into industry ($60k+) Disclaimer

36. Summary Particle physics allows us to study some of the deepest mysteries of reality. We know a whole bunch of stuff. The things we don’t know, we’re studying like mad. The mysteries mentioned here are unsolved. We need help. Join us.

37. www-d0.fnal.gov/~lucifer/PowerPoint/careers.ppt

38. Available at Amazon, BarnesandNoble.com + local book stores

39. Physicist’s Lifestyle

40. Physicist’s Lifestyle