Collaborative Research Center TRR 257

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Both sides previous revisionPrevious revision
Next revision
Previous revision
Next revisionBoth sides next revision
research [2018/12/19 17:20] adminresearch [2020/07/03 16:19] pi
Line 3: Line 3:
 We like to think about the structure of the CRC as a matrix, with rows describing physics that we would like to use and columns -- the methodologies that we plan to employ. We like to think about the structure of the CRC as a matrix, with rows describing physics that we would like to use and columns -- the methodologies that we plan to employ.
  
-^ 1. Precision Physics^ 2. Effective Theories ^ 3. Models of New Physics^ +^                                       ^ 1. Precision Physics                                                   ^ 2. Effective Theories                                          ^ 3. Models of New Physics                   
-| **A. Higgs** | Higgs boson production in the SM   | Higgs Effective Field Theory, unitarization | Extended Higgs Sectors, Simplified Models | +| **A. Higgs**                          | Higgs boson production in the SM                                       | Higgs Effective Field Theory, unitarization                    | Extended Higgs Sectors, Simplified Models  
-| **B. Top, QCD, Electroweak Physics** | Top quark and gauge boson production; physics of jets | Effective Theories for QCD and top quark physics at colliders | Dark Matter | +| **B. Top, QCD, Electroweak Physics**  | Top quark and gauge boson production; physics of jets                  | Effective Theories for QCD and top quark physics at colliders  | Dark Matter                                
-| **C. Flavour Physics** | Inclusive processes and $\textrm{B}$ - $\overline{\textrm{B}}$ mixing | Exclusive processes and hadronic matrix elements | New sources of flavour and CP violation |+| **C. Flavour Physics**                | Inclusive processes and $\textrm{B}$ - $\overline{\textrm{B}}$ mixing  | Exclusive processes and hadronic matrix elements               | New sources of flavour and CP violation    |
  
  
 Detailed information about individual projects can be found [[http://p3h.particle.kit.edu/research/projects| here]]. Detailed information about individual projects can be found [[http://p3h.particle.kit.edu/research/projects| here]].