Add to ORKGOur ability to resolve new physics effects is, largely, limited by the precision with which we calculate. The calculation of observables in the Standard (or a new physics) Model requires knowledge of associated hadronic contributions. The precision of such calculations, and therefore our ability to leverage experiment, is typically limited by hadronic uncertainties. The only first-principles method for calculating the nonperturbative, hadronic contributions is lattice QCD. Modern lattice calculations have controlled errors, are systematically improvable, and in some cases, are pushing the sub-percent level of precision. I outline the role played by, highlight state of the art efforts in, and discuss possible future directions of lattice cal...
I discuss the important role that Lattice QCD plays in testing the Flavor sector of the Standard Mo...
This document is one of a series of white papers from the USQCD Collaboration. Here, we discuss oppo...
Abstract: For a long time, investigation into the weak interactions of quarks has guided us toward u...
Our ability to resolve new physics effects is, largely, limited by the precision with which we calcu...
Our ability to resolve new physics effects is, largely, limited by the pre-cision with which we calc...
We discuss the current status of the QCD simulations on the lattice and outline the perspectives for...
This talk reviews recent lattice QCD calculations relevant for quark flavor physics. Since lattice r...
Understanding flavor physics is one of the most important tasks of particle physics today, which is ...
I briefly discuss recent lattice calculations of a selected list of hadronic matrix elements that pl...
I review the the application of the lattice formulation of QCD and large-scale numerical simulations...
This talk gives an overview of how lattice QCD calculations are influencing quark flavor physics. Th...
Recent progress in Lattice QCD is highlighted. After a brief introduction to the methodology of latt...
Recent progress in Lattice QCD is highlighted. After a brief introduction to the methodology of latt...
In recent years the precision of lattice calculations has improved hugely, and the results are makin...
In the Standard Model, quarks and gluons are permanently confined by the strong interaction into had...
I discuss the important role that Lattice QCD plays in testing the Flavor sector of the Standard Mo...
This document is one of a series of white papers from the USQCD Collaboration. Here, we discuss oppo...
Abstract: For a long time, investigation into the weak interactions of quarks has guided us toward u...
Our ability to resolve new physics effects is, largely, limited by the precision with which we calcu...
Our ability to resolve new physics effects is, largely, limited by the pre-cision with which we calc...
We discuss the current status of the QCD simulations on the lattice and outline the perspectives for...
This talk reviews recent lattice QCD calculations relevant for quark flavor physics. Since lattice r...
Understanding flavor physics is one of the most important tasks of particle physics today, which is ...
I briefly discuss recent lattice calculations of a selected list of hadronic matrix elements that pl...
I review the the application of the lattice formulation of QCD and large-scale numerical simulations...
This talk gives an overview of how lattice QCD calculations are influencing quark flavor physics. Th...
Recent progress in Lattice QCD is highlighted. After a brief introduction to the methodology of latt...
Recent progress in Lattice QCD is highlighted. After a brief introduction to the methodology of latt...
In recent years the precision of lattice calculations has improved hugely, and the results are makin...
In the Standard Model, quarks and gluons are permanently confined by the strong interaction into had...
I discuss the important role that Lattice QCD plays in testing the Flavor sector of the Standard Mo...
This document is one of a series of white papers from the USQCD Collaboration. Here, we discuss oppo...
Abstract: For a long time, investigation into the weak interactions of quarks has guided us toward u...