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Explore academic structure, student involvement, and summer research at the Notre Dame QuarkNet Center. Learn about particle physics advancements and the Standard Model in this informative presentation.
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QuarkNet – Beyond the First Year Fermilab Beth Beiersdorf QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Notre Dame QuarkNet Center • Vision • A community of researchers including high school teachers,faculty,postdoctoral, graduate and undergraduatestudents and high school students. • Location • - Just south of ND’s campus. • - Fully functional research lab. • - Houses offices, lab spaces, and student experimental areas. QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Notre Dame QuarkNet Center • Academic Structure* • 3-8 week QuarkNet and summer research • PHYS 598Q (teachers) 1-3 credits • academic year research • PHYS 598R (teachers) 1 credit • discussion sections, laboratory activity • *thanks to effort from K. Newman, J. Maddox, B. Bunker QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
RET RET RET QN QN RET QN RET QN – QuarkNet (3 weeks) Summer 2000 Week 1 2 3 4 5 6 7 8 RET – Research Experience for Teachers (8 weeks) QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
QuarkNet – 3 Weeks Lunch Mornings Afternoons QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
RET RET RET QN RET RET QN – QuarkNet (1 week) Summers 2001 & 2002 Week 1 2 3 4 5 6 7 8 RET RET RET – Research Experience for Teachers (8 weeks) QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
QuarkNet Staff and Teachers QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Science Alive QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Student Involvement QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Applications Participating High Schools Juniors How are students chosen? QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Notre Dame QuarkNet Center • Academic Structure* • 3-8 week summer research • PHYS 098Q (students) 1-3 credits • academic year research • PHYS 098R (students) 1 credit • discussion sections, laboratory activity • *thanks to effort from K. Newman, J. Maddox, B. Bunker QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
1st Shift Lunch 2nd Shift Summer Student Research QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Waveguide Bundles Containing 256 Optical Fibers QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Summer Productivity QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
September 1999: Initial Meeting for Notre Dame QN Center QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
QuarkNet – Summer 2000 What did I learn? QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
“Particle Physics” in the 20th Century • The e- was discovered by Thompson ~ 1900. The nucleus was discovered by Rutherford in ~ 1920. The e+, the first antiparticle, was found in ~ 1930. The m, indicating a second “generation”, was discovered in ~ 1936. • There was an explosion of baryons and mesons discovered in the 1950s and 1960s. They were classified in a "periodic table" using the SU(3) symmetry group, whose physical realization was point like, strongly interacting, fractionally charged "quarks". Direct evidence for quarks and gluons came in the early 1970s. • The exposition of the 3 generations of quarks and leptons is only just, 1996, completed. In the mid 1980s the unification of the weak and electromagnetic force was confirmed by the W and Z discoveries. • The LHC, starting in 2007, will be THE tool to explore the origin of the breaking of the electroweak symmetry (Higgs field?) and the origin of mass itself. QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
The Standard Model A key equation: E2 = p2c2 + m2c4 New Physics: Higgs Bosons Supersymmetry String Theory Hidden Dimensions QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Detection of Fundamental Particles SM Fundamental Particle Appears As (ECAL shower, no track) e e (ECAL shower, with track) (ionization only) g Jet in ECAL+ HCAL q = u, d, s Jet (narrow) in ECAL+HCAL q = c, b Jet (narrow) + Decay Vertex t --> W +b W + b e Et missing in ECAL+HCAL -->l + +l Et missing + charged lepton W --> l + l Et missing + charged lepton, Et~M/2 Z --> l+ + l- charged lepton pair --> l + l Et missing in ECAL+HCAL QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Dijet Events at the Tevatron • The scattering of quarks inside the proton leads to a "jet" of particles traveling in the direction of, and taking the momentum of, the parent quark. Since there is no initial state Pt, the 2 quarks in the final state are "back to back" in azimuth. QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Advancing the Energy Frontier QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
QuarkNet - Summer, 2001 My research projects QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Fiber Optic Waveguide Bundle QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Optical Connectors QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Scintillating Fibers Under Test QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
Why I keep coming back QuarkNet Mentor Presentation – April 24, 2002 B. Beiersdorf,QuarkNet Staff Teacher
