Maxeler Technologies has been delivering high performance computing solutions for over a decade, and is now using Amazon EC2 F1 instances to deliver applications such as Quantum
Chromodynamics and Real-time Risk for Finance.
The study of quarkonium systems provides a good understating of the quantitative description of quantum
chromodynamics (QCD) theory, the standard model and particle physics [1-7].
I started passively looking for topics - quantum electrodynamics, perturbation theory, general relativity, quantum
chromodynamics - I was all over the place!
Verifying unmatter by experiments, more types of unmatter, and a Quantum
Chromodynamics formula.
Cherednikob and Van der Veken offer a systematic pedagogical introduction to the quantum field theory approach to the quantitative analysis of Wilson path-ordered exponentials in quantum
chromodynamics and the applications of this formalism to the study of gauge-invariant quark and gluon correlation functions, which can be associated with the three-dimensional transverse momentum-dependent parton density functions, commonly known now as TMD pdfs or simple TMDs.
The triumph of the electroweak theory edified a part of scholars to extend the Yang-Mill equations into the strong-nuclear fields, establishing the quantum
chromodynamics (QCD for short).
Research and development on theoretical physics and quantum
chromodynamics is carried on by the system.
* Floating-point applications include computations for fluid dynamics, quantum chemistry, quantum
chromodynamics, molecular dynamics, general relativity, finite element analysis, linear programming, image rendering, structural mechanics, computational electromagnetics, weather modeling, and speech recognition.
It has given us quantum
chromodynamics, which resolves the central problem of nuclear physics, as well as predicting the Higgs particle and much else.
A complex set of equations within the theory of quantum
chromodynamics, or QCD, describes how quarks and gluons interact.