A Gateway to Scientific Discovery

It is the dawn of a new era in particle physics. Physicists have incorporated decades of observations and results into the Standard Model, a framework for our current understanding of matter. Even as they continue to refine it, they are aware that it leaves fundamental questions unanswered. To probe the frontier beyond the Standard Model, particle physicists turn to instruments that break the old barriers of energy, precision and intensity to explore new frontiers in particle physics.

Physicists look for new science by looking for the unexpected. They publish results explaining claims with evidence from Fermilab data so that others can put those results to the test. New understandings lead to new fundamental questions and a new world of discovery.

What is dark matter? What happened to antimatter? What are the neutrinos telling us?

While scientific breakthroughs may seem to occur suddenly, Eureka!, in fact years of research are behind discoveries such as the top quark mass, the construction of the Tevatron or the availability of the World Wide Web.

The resources in this project map provide background information for the next discoveries. Follow along as physicists unravel mysteries of particle physics.

The Standard Model is the current framework for our understanding of matter.

Activities

• The Particle Adventure - The Standard Model - an interactive tour (from CPEP)
• Quark Workbench - Using rules that describe the structure of mesons and baryons
• Quark Applet - Quark combinations that show resulting particles
• Fermilabyrinth - Law 'n Order - Online games (Fermilab's Lederman Science Center exhibits)

Additional Resources

• What is the world made of? - Introduction for Inquiring Minds (from Fermilab)
• Historic Results - Hallmark discoveries physicists made at Fermilab (from Fermilab)
• The Standard Model - Short description (from the SLAC Virtual Visitor Center)
• The Standard Model - The Standard Model and more (from CERN)
• The Standard Model of Particle Physics - A bit of history about organizing particles by characteristics (CERN video)
• What Particle Are You? - A particle flowchart by Sean Carroll in Discover Magazine
• In Search of Giants - Brian Cox explains the standard model and important discoveries leading to it in this video from SciTechUK.
• Neutrinos Matter - pamphlet by Janet Conrad and Sharon Butler
• Neutrino - explain it in 60 seconds (Symmetry Magazine)
• Neutrino Mixing - explain it in 60 minutes (Symmetry Magazine)

The Standard Model explains much but leaves many unanswered questions.

Activities

• Higgs Reception - Classroom simulation of the Higgs cartoon
• Run II Website - Run II data analysis of W and Z as precursor to the search for Higgs

Additional Resources

• Quantum Universe - The quest to explain the universe (from interactions.org)
• Questions for the Universe - Includes videos of physicists explaining mysteries of particle physics (from Fermilab)
• Frontiers of Particle Physics - Fermilab's physics program (from Fermilab)
• Twenty-First Century Questions - from the International Committee for Future Accelerators' Beacons of Discovery
• The Higgs Boson Explained - An excellent animated video explaining the Higgs boson from PhD Comics
• Higgs Cartoon - Cartoon analogy explaining the Higgs mechanism as a cocktail party (D. Miller and CERN)
• Search for Higgs News Stories - CERN Courier and Fermilab Today articles from 1999 to 2011
• CONEC video dedica un especial al Bosón de Higgs - CONEC video special on the Higgs boson
    (Spanish with English subtitles)
• Strange Effects: The Mystical History of Neutrino Experiments - a comprehensive article from Wired Science.
• Neutrino masses - explain it in 60 seconds (Symmetry Magazine)
• Dark Matters - An excellent animated video explaining Dark Matter from PhD Comics
• Voyage into the Unknown - the Intensity Frontier (Symmetry Magazine)
• The dark universe debate - explaining dark matter (Symmetry Magazine)
• Time Machine - Completing the journey back to the beginning of time (CERN video, 1998)
• In Search of Giants - Brian Cox explains the Higgs and other ideas in this video from SciTechUK.
• The Higgs Boson: Is the End in Sight? - Fermilab physicist discusses the Higgs in the Physics Teacher

Physicists build new instruments to address some of these unanswered questions.

Accelerator Activities

• Making It Round the Bend - Exploration of the basic physics at the heart of accelerator design
• Fermilabyrinth - Warp Speed - Online games (Fermilab's Lederman Science Center exhibits)

Detector Activities

• Make a Cloud Chamber - One of many sites for building a cloud chamber (Student Video of a cloud chamber (requires Windows Media Player.))
• Mass Calorimeter - Determining an unknown mass by building and calibrating a simple tabletop calorimeter.
• Fermilabyrinth - Ghost Bustin' - Online games (Fermilab's Lederman Science Center exhibits)

Additional Resources

• Fermilab's Tevatron (1983-2011) with an Interactive Timeline and Fermilab's Plan for the Future and Plans for the Accelerator Complex.
• Fermilab's Tevatron - Article about Fermilab's accelerators
• The Fast Lane - Watch video about Fermilab's accelerators during the Tevatron Era.
• Accelerator Applications - Accelerators in the real world (from Symmetry)
• Live Collisions from CDF and DZero
• Animation of CMS Wedge - Tracing particle paths through CMS (adapted by L. Quigg from CMS animation).
• In Search of Giants - Brian Cox introduces the LHC in this video from SciTechUK.
• deconsruction: COUPP bubble chamber - Bubble technology burst into the 21st century (Symmetry Magazine)
• The MINOS & CDMS Experiments: Mining the Cosmos - Experiments in the Soudan Mine (Fermilab video).
• The Elusive Neutrino - neutrino experiments (Symmetry Magazine)
• The Muon Guys: On the Hunt for New Physics - Mu2e (Symmetry Magazine)
• Dark Energy Camera scans ancient sky - Recording light from hundreds of millions of galaxies (Symmetry Magazine)
• Listening for whispers of dark matter - an underground experiment, a quiet place for listening (Symmetry Magazine)

Particle physics research relies on indirect evidence to support claims.

Scientists check for statistical uncertainties and systematic uncertainties, whether other experiments are able to verify new discoveries.

Activities

• Top Quark Mass - Investigation using vector addition to calculate the mass of the top quark
• Rolling with Rutherford - Practice with indirect measurements
• U.S. Penny Activity - Graphing penny mass as a way to understand particle mass plots
• Fermilabyrinth - Code Crackin' - Online games (Fermilab's Lederman Science Center exhibits)

Additional Resources

• Higgs Boson: How you search for it and Latest Update - YouTube, Dec. 13, 2011
• CMS Higgs Results: Internal video of collaboration examining results & public announcement, 2012
• New Discoveries - PPT (from Mike Strauss, University of Oklahoma)
• No show neutrino and a new mystery - First results from the MiniBooNE experiment (Symmetry Magazine)
• Particle Hunters - Meeting CMS physicists (CERN video, 2004)

Follow along as physicists report new results.

News

• Higgs Media Highlights - Assembled by Fermilab
• Higgs-like Particle Discovered at CERN - Fermilab Press Release, July 4, 2012
• Final Higgs Results from the Tevatron - Fermilab Press Release, July 2, 2012
• Possible signs of the Higgs remain in latest analyses - from the Fermilab Press Room, Dec. 13, 2012
• Fermilab experiment weighs in on neutrino mystery - from the Fermilab Press Room, June 27, 2011
• Fermilab scientists find evidence for significant matter-antimatter asymmetry - from the Fermilab Press Room, May 18, 2010
• Results of the Week - Fermilab Today archive

Research Seminars - Streaming Video

• DZero No Bump - Study of the dijet invariant mass distribution in ppbar-->W + jj final states - Joe Haley, DZero June 10, 2011
• The CDF "Bump" - Invariant Mass Distribution of Jet Pairs Produced in Association with a W boson in proton-antiproton Collision at sqrt(s) = 1.96 TeV - Viviana Cavaliere, CDF April 6, 2011

Background Information

• Particles Matter - Physics at High-energy a timeline (from Fermilab)
• Explain it in 60 seconds - Archive from 2004 (Symmetry Magazine)
• The Higgs Boson…or a Higgs Boson? - NOVAnext article by Don Lincoln, March 2013

Nine Questions

• Are there undiscovered principles of nature: new symmetries, new physical laws?
• How can we solve the mystery of dark energy?
• Are there extra dimensions of space?
• Do all the forces become one?
• Why are there so many kinds of particles?
• What is dark matter? How can we make it in the Laboratory?
• What are neutrinos telling us?
• How did the universe come to be?
• Happened to the antimatter?