Presentation is loading. Please wait.

Presentation is loading. Please wait.

ab initio Chemistry ab initio QCD = flops  10 Mflops

Published byAshlie Watts Modified over 6 years ago

Similar presentations

Presentation on theme: "ab initio Chemistry ab initio QCD = flops  10 Mflops"— Presentation transcript:

1 ab initio Chemistry ab initio QCD 1930+50 = 1980 0.1 flops  10 Mflops
Comparison of Chemistry & QCD : K. Wilson (1989 Capri): “lattice gauge theory could also require a 108 increase in computer power AND spectacular algorithmic advances before useful interactions with experiment ...” ab initio Chemistry = 1980 0.1 flops  10 Mflops Gaussian Basis functions ab initio QCD = 2030?* 10 Mflops  1000 Tflops Clever Multi-scale Variable? “Almost 20 Years ahead of schedule!” *Fast Computers + Smart Algorithms + Rigorous QCD Theoretical Analysis = ab initio predictions

2 Forces in Standard Model
Nuclei Weak N=2 (Isospin) Atoms: Maxwell N=1(charge) Sub nuclear: Strong N=3 (Color) Standard Model: U(1) £ SU(2) £ SU(3)

3 Quantum Chromo Dynamics - QCD
QED: theory of electromagnetism QCD: theory of strong interactions – hadronic physics QED QCD Photon,  Gluons, G Charged particles, e, , u, d,… Quarks: u, d, s, c, b, t 2 charges: positive & negative 3 charges: “red”, “green”, “blue” Photon is neutral Gluons carry color charge e ' 1/137 s ' O(1) Highly non-linear theory – can only use perturbation theory at high energy

4 Running Coupling Unification
Strong Weak E&M Mplanck = 1018

5 But QCD has charged Quarks and Gluons
Quark-Antiquarks polarize just like e+- e- pairs “But Gluons Act with Opposite Sign!”  X

6 Quark+anti-Quark in Meson

7

8 3 Color  3 quarks in Proton

9 Glue in Vacuum is Lumpy l

Download ppt "ab initio Chemistry ab initio QCD = flops  10 Mflops"

Similar presentations

The Weak Force EM STRONG WEAK ?. The Force Carriers  Like the Electromagnetic & Strong forces, the Weak force is also mediated by “force carriers”. 

The Weak Force EM STRONG WEAK ?. The Force Carriers  Like the Electromagnetic & Strong forces, the Weak force is also mediated by “force carriers”. 
The search for the God Particle

The search for the God Particle
Nuclear Physics in the SciDAC Era Robert Edwards Jefferson Lab SciDAC 2009 TexPoint fonts used in EMF. Read the TexPoint manual before you delete this.

Nuclear Physics in the SciDAC Era Robert Edwards Jefferson Lab SciDAC 2009 TexPoint fonts used in EMF. Read the TexPoint manual before you delete this.
Lattice Quantum Chromodynamic for Mathematicians Richard C. Brower Yale University May Day 2007 Tutorial in “ Derivatives, Finite Differences and.

Lattice Quantum Chromodynamic for Mathematicians Richard C. Brower Yale University May Day 2007 Tutorial in “ Derivatives, Finite Differences and.
Now I am become Death, the destroyer of worlds. Robert Oppenheimer after the first test of the atomic bomb.

"Now I am become Death, the destroyer of worlds." Robert Oppenheimer after the first test of the atomic bomb.
Nuclear Physics UConn Mentor Connection Mariel Tader.

Nuclear Physics UConn Mentor Connection Mariel Tader.
Derivation of Electro-Weak Unification and Final Form of Standard Model with QCD and Gluons  1 W 1 +  2 W 2 +  3 W 3.

Derivation of Electro-Weak Unification and Final Form of Standard Model with QCD and Gluons  1 W 1 +  2 W 2 +  3 W 3.
The Strong Interaction Michael Mattern. Contents The fundamental forces History The need of a strong force The Therory from Yukawa The pion as the mediator.

The Strong Interaction Michael Mattern. Contents The fundamental forces History The need of a strong force The Therory from Yukawa The pion as the mediator.
January 16, 2001Physics 8411 Introduction to Feynman Diagrams and Dynamics of Interactions All known interactions can be described in terms of forces forces:

January 16, 2001Physics 8411 Introduction to Feynman Diagrams and Dynamics of Interactions All known interactions can be described in terms of forces forces:
P461 - particles I1 all fundamental with no underlying structure Leptons+quarks spin ½ while photon, W, Z, gluons spin 1 No QM theory for gravity Higher.

P461 - particles I1 all fundamental with no underlying structure Leptons+quarks spin ½ while photon, W, Z, gluons spin 1 No QM theory for gravity Higher.
University of Birmingham Master class,23rd April 2008 Ravjeet Kour Journey into the heart of matter Introducing Particle Physics.

University of Birmingham Master class,23rd April 2008 Ravjeet Kour Journey into the heart of matter Introducing Particle Physics.
Modern Physics LECTURE II.

Modern Physics LECTURE II.
Modern Physics Introduction To examine the fundamental nuclear model To examine nuclear classification To examine nuclear fission and fusion.

Modern Physics Introduction To examine the fundamental nuclear model To examine nuclear classification To examine nuclear fission and fusion.
Elementary particles atom Hadrons Leptons Baryons Mesons Nucleons

Elementary particles atom Hadrons Leptons Baryons Mesons Nucleons
Fundamental Particles (The Standard Model) Nathan Brown June 2007.

Fundamental Particles (The Standard Model) Nathan Brown June 2007.
Particle Physics Intro. What’s Stuff Made Of…Really? All particles can be grouped into two categories: Fermions and Bosons Things to know about Fermions:

Particle Physics Intro. What’s Stuff Made Of…Really? All particles can be grouped into two categories: Fermions and Bosons Things to know about Fermions:
quarks three families Standard - Theory III II I.

quarks three families Standard - Theory III II I.
The GlueX Experiment in Hall-D

The GlueX Experiment in Hall-D
P780.02 Spring 2002 L14Richard Kass Quantum Chromodynamics Quantum Chromodynamics (QCD) is the theory of the strong interaction. QCD is a non-abelian gauge.

P Spring 2002 L14Richard Kass Quantum Chromodynamics Quantum Chromodynamics (QCD) is the theory of the strong interaction. QCD is a non-abelian gauge.
TU Dresden Particles of the Standard Model Sophie Koßagk.

TU Dresden Particles of the Standard Model Sophie Koßagk.

Similar presentations

Ads by Google