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Primeur weekly 2016-07-04

Special

European Commission reorganisation affects supercomputing and e-Infrastructures ...

Focus

The next flagship supercomputer in Japan will be the "post K" with a CPU based on ARM V8 with HPC extension ...

Crowd computing

Book about volunteer computing released ...

Quantum computing

New, better way to build circuits for world's first useful quantum computers ...

Focus on Europe

ISC 2016 breaks record with attendance and programme in Frankfurt ...

PRACE Council elects new leadership ...

PRACE launches Fourth Call for Applications under SHAPE ...

International Data Corporation lauds innovations in supercomputing with Innovation Excellence Awards ...

PRACE looks back on successful ISC 2016 Conference in Frankfurt ...

Hardware

New age of computing launched at the University of Melbourne ...

Computing density of scalable energy-efficient RSC Tornado solution with the newest Intel Xeon Phi processor has increased by 2 times to 528 Teraflops per cabinet ...

CFMS selects Cray for next generation HPC platform ...

Lawrence Livermore National Laboratory dedicates new supercomputer facility ...

Applications

Supercomputers on the trail of dark matter ...

New Quantum Mechanics algorithm fast on GPU desktop, not like older algorithms that need a supercomputer ...

Seeds of supermassive black holes could be revealed by gravitational waves ...

U.S. Department of Veterans Affairs enlists IBM's Watson in the war on cancer ...

New ocean current simulations alter view of climate change impacts ...

Computer simulations help scientists glimpse why life can't happen without water ...

Nine University of Wyoming projects awarded summer use of supercomputer in Cheyenne ...

TOP500

MSU supercomputer recognized for power and energy efficiency ...

DDN increases its TOP500 HPC leadership to an unprecedented 70 percent of global supercomputing centres ...

The Cloud

Oracle announces Pfizer's Selection of Oracle Cloud for clinical data management and trial management across its clinical trial portfolio ...

IBM unveils new Bluemix OpenWhisk tools to speed development of IoT apps on IBM Cloud ...

Oracle brings SPARC to the Cloud ...

Supercomputers on the trail of dark matter


Galaxy clusters, which contain a significant amount of dark matter. In this image, the dark matter appears to align well with the blue-hued hot gas. Image: NASA.
24 Jun 2016 Lugano - Particle physicists using the CSCS supercomputer 'Piz Daint' have determined what is known as the scalar quark content of the proton. Now they hope, amongst other things, that this will make it easier to detect and research dark matter.

Almost all mass on Earth, humans included, derives from the atomic nuclei. These nuclei consist mainly of protons and neutrons, also called nucleons. Each nucleon in turn is made of three constituent quarks. However, the number of quark particles in the nucleon is actually much higher. This is due to what are known as quantum fluctuations, where pairs of particles and anti-particles form spontaneously in a vacuum and immediately disintegrate again.

A research team from Cyprus, Germany and Italy led by Constantia Alexandrou of the Computation-based Science and Technology Research Center of the Cyprus Institute and the Physics Department of the University of Cyprus in Nicosia, has now for the first time calculated the scalar quark content of the proton. For the elaborate simulations in a CHRONOS - Computationally-Intensive, High-Impact Research On Novel Outstanding Science - project they made extensive use of the graphics processors (GPUs) of the CSCS supercomputer 'Piz Daint'. The researchers expect that their calculations will aid research into physical processes in particle physics and the as yet unknown dark matter that accounts for an estimated 21 percent of matter in the universe.

For every quark, there exists an anti-quark. A tightly coupled quark/anti-quark pair forms a condensate, similar to a water droplet on a pane of glass. This condensate is called the scalar quark content, and has a scalar quantum number. So the condensates can couple to the Higgs boson, which itself is a scalar particle. The Higgs boson - it is suspected - could interact with scalar particles of dark matter. "If we are to interpret experimental results as direct evidence for dark matter, then it is essential to know the numeric value we determined for the condensates and hence the exact proportion of scalar quark content in the nucleon, in particular what are known as strange quarks", stated Constantia Alexandrou.

Quarks interact mutually via gluon particles, and quarks with gluons via their respective colour charges, which may be red, green or blue. The strong force acting and being transmitted by the gluons - called the strong interaction - is one of the four fundamental forces of physics along with the weak interaction, the electromagnetic interaction and gravitation. The research field of Constantia Alexandrou and her team is quantum chromodynamics (QCD), which theoretically describes the strong interaction between quarks and gluons, and hence explains the origin of the nucleon large mass as well as what binds together neutrons and protons in atomic nuclei. For without the strong interaction, protons, for example, with their similar electrical charges, would repel each other rather than sticking together in the nucleus. And that would negate the existence of matter as we now understand it.

The strong interaction is indeed so strong that the mass-equivalent of the binding energy represents to a substantial degree the mass of a nucleon: "While a quark weighs around 10 mega electron volts (MeV), a proton due to its binding energy weighs 1 GeV (giga electron volts), or 100 times more", stated physicist Karl Jansen of the John von Neumann Institute for Computing at DESY in Zeuthen, Germany, who was involved with the study now published inPhysical Review Letters. The force is so strong that quarks can never be extracted from protons experimentally. "That is a property that is characteristic for QCD and it is termed 'confinement'", stated Constantia Alexandrou. Attempts to isolate quarks using large quantities of energy result in their behaving like a spring or an elastic band, where increasing energy must be given the further they are pulled apart. If the band is over-stretched, it ‘rips’ and a quark-antiquark is formed that immediately binds via the strong interaction, and leads to a new hadron (a composite particle of quarks) being formed.

However, the strong force acts only on a very small space inside the atomic nucleus and defies approximate calculation, because the coupling between particles can grow very strong. Thus, it is not possible to identify a sufficiently small parameter that would be necessary for a perturbation theory calculation, explained Karl Jansen. With the ground-breaking formulation of a theory of quarks and gluons in a four-dimensional space-time lattice, physicist and Nobel Prize winner Kenneth Wilson succeeded in 1974 with developing the lattice theory of quantum chromodynamics (lattice QCD) - a non-perturbative method. He thus laid the foundation for future numerical simulation.

In the lattice QCD theory, space-time is a four-dimensional lattice, a crystal with hyper-cubic symmetry. "By also moving from Minkowski to Euclidean time, we can consider the quantum field theory as a statistical physical system and carry out numerical simulations of that system", explained Karl Jansen. Nevertheless, it took over 30 years until the first researchers managed in 2008 to calculate the weight of nucleons and other particles directly from lattice QCD. This was made possible by a spectacular further development of the simulation algorithm in use, together with continually improving and more powerful supercomputers, said Karl Jansen. "Now, by further refining the existing techniques and developing new and better algorithms, we successfully determined the scalar quark content in a proton - another non-trivial step."

The research results of Constantia Alexandrou and her team are already finding use in experiments that look for evidence of an interaction between the Higgs boson and the scalar condensate inside the nucleon. In the involved researchers’ view, the most recent results from 'Piz Daint' could thus push open a new window along the way to finally solving the mystery of dark matter.

Abdel-Rehim A., Alexandrou C., Constantinou M., Hadjiyiannakou K., Jansen K., Kallidonis Ch., Koutsou G. & Vaquero Aviles-Casco A. are the authors of the paper titled "Direct evaluation of the quark content of the nucleon from lattice QCD at the physical point". The paper was published inPhysical Review Letters(2016), 116, 252001.
Source: Swiss National Supercomputing Centre - CSCS

Back to Table of contents

Primeur weekly 2016-07-04

Special

European Commission reorganisation affects supercomputing and e-Infrastructures ...

Focus

The next flagship supercomputer in Japan will be the "post K" with a CPU based on ARM V8 with HPC extension ...

Crowd computing

Book about volunteer computing released ...

Quantum computing

New, better way to build circuits for world's first useful quantum computers ...

Focus on Europe

ISC 2016 breaks record with attendance and programme in Frankfurt ...

PRACE Council elects new leadership ...

PRACE launches Fourth Call for Applications under SHAPE ...

International Data Corporation lauds innovations in supercomputing with Innovation Excellence Awards ...

PRACE looks back on successful ISC 2016 Conference in Frankfurt ...

Hardware

New age of computing launched at the University of Melbourne ...

Computing density of scalable energy-efficient RSC Tornado solution with the newest Intel Xeon Phi processor has increased by 2 times to 528 Teraflops per cabinet ...

CFMS selects Cray for next generation HPC platform ...

Lawrence Livermore National Laboratory dedicates new supercomputer facility ...

Applications

Supercomputers on the trail of dark matter ...

New Quantum Mechanics algorithm fast on GPU desktop, not like older algorithms that need a supercomputer ...

Seeds of supermassive black holes could be revealed by gravitational waves ...

U.S. Department of Veterans Affairs enlists IBM's Watson in the war on cancer ...

New ocean current simulations alter view of climate change impacts ...

Computer simulations help scientists glimpse why life can't happen without water ...

Nine University of Wyoming projects awarded summer use of supercomputer in Cheyenne ...

TOP500

MSU supercomputer recognized for power and energy efficiency ...

DDN increases its TOP500 HPC leadership to an unprecedented 70 percent of global supercomputing centres ...

The Cloud

Oracle announces Pfizer's Selection of Oracle Cloud for clinical data management and trial management across its clinical trial portfolio ...

IBM unveils new Bluemix OpenWhisk tools to speed development of IoT apps on IBM Cloud ...

Oracle brings SPARC to the Cloud ...